Utilization of Biotechnology, Neurotransmitter and Cytogenetic Indices in Selecting Pigeon Breeds

Investigations into LDH-A and DR-D4 genes polymorphism, neurotransmitter values and cytogenetic indices of 3 sexed pigeon breeds; non-racing pigeons, (wild rock), racing long distances pigeons (Jan Aarden) and racing short distances pigeons (Janssen) have been performed. The long-distances pigeon showed the highest brain neurotransmitters concentration (p<0.001) among pigeon breeds. Both LDH-A and DR-D4 genes polymorphism indicate the presence of different biodiversity values among pigeon breeds. The variations appeared on the position length 389bp for LDH-A polymorphism, and on two positions length of 418bp and 524bp for DR-D4 polymorphism of long distances male pigeon indicate the presence of unique diversity and overall differences in the amino acids structure in this breed. The protein sequence of both genes showed that in the position of 60 for LDH-A gene the amino acid K (lys) was converted to E (glu), while, in the positions of 117 and 153 for DR-D4 gene the amino acid R (arg) and L (leu) were converted to S (ser) and F (phe) only in long distances male pigeon compared to the other breeds. Moreover, there were slight differences in cytogenetic indices detected among the three pigeon breeds. It can be concluded that both DR-D4 and LDH-A genes polymorphism and neurotransmitters estimations in the brain tissue of racing pigeon would be useful indices for the differentiation and genetic characterization of pigeon breeds and provide a foundation for developing sustainable genetic improvement and conservation programs of the breeding and selecting racing pigeon breeders.(AU)

Curcumin exerts its antioxidant and neuroprotective effects against aluminum-induced oxidative stress and neurotoxicity in male albino rats

Aluminum is a neurotoxicant and one of the most harmful metals in the environment; it is producing tissue inflammation and oxidative stress. Curcumin is an effective antioxidant and neuroprotective compound with medicinal potential. Curcumin's effect on AL toxicity was investigated in this study. Two groups of 70 mature adult albino rats were used, each of which was subdivided into five groups: Control, Vehicle, Curcumin, Aluminum, and Curcumin + Aluminum group. For two periods of 20 and 40 days, animal models were administered orally AlCl3 (20 mg kg-1 bw) and/or Curcumin (100 mg kg-1 bw). In the cerebral cortex, aluminum caused a significant rise (p < 0.05) in lipid peroxidation and DNA fragmentation, as well as a significant decrease (p < 0.05) in antioxidant enzymes such as catalase, superoxide dismutase, and glutathione peroxidase. In the brain hippocampus, aluminum caused a major reduction (p < 0.05) in neurotransmitters (dopamine and serotonin), while Acetylcholine esterase activity increased sharply (p < 0.05). Aluminum also triggered histological analyses in the hippocampus of the brain. Curcumin co-administration considerably reduced the increase in lipid peroxidation and DNA fragmentation, but also enhanced the depletion of antioxidant enzymes. Curcumin also reversed the decline in neurotransmitters, the increase in Acetylcholine esterase, and the distortion in the brain hippocampus.(AU)

The neuroendocrine pathways and mechanisms for the control of the reproduction in female pigs

Abstract Within the hypothalamic-pituitary-gonad (HPG) axis, the major hierarchical component is gonadotropin-releasing hormone (GnRH) neurons, which directly or indirectly receive regulatory inputs from a wide array of regulatory signals and pathways, involving numerous circulating hormones, neuropeptides, and neurotransmitters, and which operate as a final output for the brain control of reproduction. In recent years, there has been an increasing interest in neuropeptides that have the potential to stimulate or inhibit GnRH in the hypothalamus of pigs. Among them, Kisspeptin is a key component in the precise regulation of GnRH neuron secretion activity. Besides, other neuropeptides, including neurokinin B (NKB), neuromedin B (NMB), neuromedin S (NMS), α-melanocyte-stimulating hormone (α-MSH), Phoenixin (PNX), show potential for having a stimulating effect on GnRH neurons. On the contrary, RFamide-related peptide-3 (RFRP-3), endogenous opioid peptides (EOP), neuropeptide Y (NPY), and Galanin (GAL) may play an inhibitory role in the regulation of porcine reproductive nerves and may directly or indirectly regulate GnRH neurons. By combining data from suitable model species and pigs, we aim to provide a comprehensive summary of our current understanding of the neuropeptides acting on GnRH neurons, with a particular focus on their central regulatory pathways and underlying molecular basis.

The neuroendocrine pathways and mechanisms for the control of the reproduction in female pigs

Within the hypothalamic-pituitary-gonad (HPG) axis, the major hierarchical component is gonadotropin-releasing hormone (GnRH) neurons, which directly or indirectly receive regulatory inputs from a wide array of regulatory signals and pathways, involving numerous circulating hormones, neuropeptides, and neurotransmitters, and which operate as a final output for the brain control of reproduction. In recent years, there has been an increasing interest in neuropeptides that have the potential to stimulate or inhibit GnRH in the hypothalamus of pigs. Among them, Kisspeptin is a key component in the precise regulation of GnRH neuron secretion activity. Besides, other neuropeptides, including neurokinin B (NKB), neuromedin B (NMB), neuromedin S (NMS), α-melanocyte-stimulating hormone (α-MSH), Phoenixin (PNX), show potential for having a stimulating effect on GnRH neurons. On the contrary, RFamide-related peptide-3 (RFRP-3), endogenous opioid peptides (EOP), neuropeptide Y (NPY), and Galanin (GAL) may play an inhibitory role in the regulation of porcine reproductive nerves and may directly or indirectly regulate GnRH neurons. By combining data from suitable model species and pigs, we aim to provide a comprehensive summary of our current understanding of the neuropeptides acting on GnRH neurons, with a particular focus on their central regulatory pathways and underlying molecular basis.(AU)

Characterization and evaluation of the enzymatic activity of tetanus toxin submitted to cobalt-60 gamma radiation

Tetanus toxin blocks the release of the inhibitory neurotransmitters in the central nervous system and causes tetanus and its main form of prevention is through vaccination. The vaccine is produced by inactivation of tetanus toxin with formaldehyde, which may cause side effects. An alternative way is the use of ionizing radiation for inactivation of the toxin and also to improve the potential immunogenic response and to reduce the post-vaccination side effects. Therefore, the aim of this study was to characterize the tetanus toxin structure after different doses of ionizing radiation of 60Co. Methods Irradiated and native tetanus toxin was characterized by SDS PAGE in reducing and non-reducing conditions and MALD-TOF. Enzymatic activity was measured by FRET substrate. Also, antigenic properties were assessed by ELISA and Western Blot data. Results Characterization analysis revealed gradual modification on the tetanus toxin structure according to doses increase. Also, fragmentation and possible aggregations of the protein fragments were observed in higher doses. In the analysis of peptide preservation by enzymatic digestion and mass spectrometry, there was a slight modification in the identification up to the dose of 4 kGy. At subsequent doses, peptide identification was minimal. The analysis of the enzymatic activity by fluorescence showed 35 % attenuation in the activity even at higher doses. In the antigenic evaluation, anti-tetanus toxin antibodies were detected against the irradiated toxins at the different doses, with a gradual decrease as the dose increased, but remaining at satisfactory levels. Conclusion Ionizing radiation promoted structural changes in the tetanus toxin such as fragmentation and/or aggregation and attenuation of enzymatic activity as the dose increased, but antigenic recognition of the toxin remained at good levels indicating its possible use as an immunogen. However, studies of enzymatic activity of tetanus toxin irradiated with doses above 8 kGy should be further analyzed.(AU)

Characterization and evaluation of the enzymatic activity of tetanus toxin submitted to cobalt-60 gamma radiation

Tetanus toxin blocks the release of the inhibitory neurotransmitters in the central nervous system and causes tetanus and its main form of prevention is through vaccination. The vaccine is produced by inactivation of tetanus toxin with formaldehyde, which may cause side effects. An alternative way is the use of ionizing radiation for inactivation of the toxin and also to improve the potential immunogenic response and to reduce the post-vaccination side effects. Therefore, the aim of this study was to characterize the tetanus toxin structure after different doses of ionizing radiation of 60Co. Methods Irradiated and native tetanus toxin was characterized by SDS PAGE in reducing and non-reducing conditions and MALD-TOF. Enzymatic activity was measured by FRET substrate. Also, antigenic properties were assessed by ELISA and Western Blot data. Results Characterization analysis revealed gradual modification on the tetanus toxin structure according to doses increase. Also, fragmentation and possible aggregations of the protein fragments were observed in higher doses. In the analysis of peptide preservation by enzymatic digestion and mass spectrometry, there was a slight modification in the identification up to the dose of 4 kGy. At subsequent doses, peptide identification was minimal. The analysis of the enzymatic activity by fluorescence showed 35 % attenuation in the activity even at higher doses. In the antigenic evaluation, anti-tetanus toxin antibodies were detected against the irradiated toxins at the different doses, with a gradual decrease as the dose increased, but remaining at satisfactory levels. Conclusion Ionizing radiation promoted structural changes in the tetanus toxin such as fragmentation and/or aggregation and attenuation of enzymatic activity as the dose increased, but antigenic recognition of the toxin remained at good levels indicating its possible use as an immunogen. However, studies of enzymatic activity of tetanus toxin irradiated with doses above 8 kGy should be further analyzed.(AU)

Neuroactive venom compounds obtained from Phlogiellus bundokalbo as potential leads for neurodegenerative diseases: insights on their acetylcholinesterase and beta-secretase inhibitory activities in vitro

Spider venom is a rich cocktail of neuroactive compounds designed to prey capture and defense against predators that act on neuronal membrane proteins, in particular, acetylcholinesterases (AChE) that regulate synaptic transmission through acetylcholine (ACh) hydrolysis - an excitatory neurotransmitter - and beta-secretases (BACE) that primarily cleave amyloid precursor proteins (APP), which are, in turn, relevant in the structural integrity of neurons. The present study provides preliminary evidence on the therapeutic potential of Phlogiellus bundokalbo venom against neurodegenerative diseases. Methods Spider venom was extracted by electrostimulation and fractionated by reverse-phase high-performance liquid chromatography (RP-HPLC) and characterized by matrix-assisted laser desorption ionization-time flight mass spectrometry (MALDI-TOF-MS). Neuroactivity of the whole venom was observed by a neurobehavioral response from Terebrio molitor larvae in vivo and fractions were screened for their inhibitory activities against AChE and BACE in vitro. Results The whole venom from P. bundokalbo demonstrated neuroactivity by inducing excitatory movements from T. molitor for 15 min. Sixteen fractions collected produced diverse mass fragments from MALDI-TOF-MS ranging from 900-4500 Da. Eleven of sixteen fractions demonstrated AChE inhibitory activities with 14.34% (± 2.60e-4) to 62.05% (± 6.40e-5) compared with donepezil which has 86.34% (± 3.90e-5) inhibition (p > 0.05), while none of the fractions were observed to exhibit BACE inhibition. Furthermore, three potent fractions against AChE, F1, F3, and F16 displayed competitive and uncompetitive inhibitions compared to donepezil as the positive control. Conclusion The venom of P. bundokalbo contains compounds that demonstrate neuroactivity and anti-AChE activities in vitro, which could comprise possible therapeutic leads for the development of cholinergic compounds against neurological diseases.(AU)

Neuroactive venom compounds obtained from Phlogiellus bundokalbo as potential leads for neurodegenerative diseases: insights on their acetylcholinesterase and beta-secretase inhibitory activities in vitro

Spider venom is a rich cocktail of neuroactive compounds designed to prey capture and defense against predators that act on neuronal membrane proteins, in particular, acetylcholinesterases (AChE) that regulate synaptic transmission through acetylcholine (ACh) hydrolysis - an excitatory neurotransmitter - and beta-secretases (BACE) that primarily cleave amyloid precursor proteins (APP), which are, in turn, relevant in the structural integrity of neurons. The present study provides preliminary evidence on the therapeutic potential of Phlogiellus bundokalbo venom against neurodegenerative diseases. Methods Spider venom was extracted by electrostimulation and fractionated by reverse-phase high-performance liquid chromatography (RP-HPLC) and characterized by matrix-assisted laser desorption ionization-time flight mass spectrometry (MALDI-TOF-MS). Neuroactivity of the whole venom was observed by a neurobehavioral response from Terebrio molitor larvae in vivo and fractions were screened for their inhibitory activities against AChE and BACE in vitro. Results The whole venom from P. bundokalbo demonstrated neuroactivity by inducing excitatory movements from T. molitor for 15 min. Sixteen fractions collected produced diverse mass fragments from MALDI-TOF-MS ranging from 900-4500 Da. Eleven of sixteen fractions demonstrated AChE inhibitory activities with 14.34% (± 2.60e-4) to 62.05% (± 6.40e-5) compared with donepezil which has 86.34% (± 3.90e-5) inhibition (p > 0.05), while none of the fractions were observed to exhibit BACE inhibition. Furthermore, three potent fractions against AChE, F1, F3, and F16 displayed competitive and uncompetitive inhibitions compared to donepezil as the positive control. Conclusion The venom of P. bundokalbo contains compounds that demonstrate neuroactivity and anti-AChE activities in vitro, which could comprise possible therapeutic leads for the development of cholinergic compounds against neurological diseases.(AU)

Síndrome do mau ajustamento neonatal em potros: foco em neuroesteróides / Foal mal adjustment syndrome: focus on neurosteroids

O processo de transição do feto para a vida extra-uterina é considerado um período crítico que requer complexas adaptações fisiológicas do potro neonato. Eventos estressores de origem hipóxicoisquêmicas no periparto podem desencadear um quadro de encefalopatia neonatal equina, também conhecida como síndrome do mau ajustamento neonatal. O diagnóstico é feito baseado na avaliação clínica e na anamnese e avaliação do histórico da gestação. Casos leves a moderados tem prognóstico favorável. É imprescindível o entendimento da endocrinologia da gestação, do papel dos neuroesteróides no desenvolvimento do sistema nervoso fetal para que o estabelecimento precoce da terapia adequada seja realizado de maneira bem sucedida. Assim, o objetivo do presente é abordar os principais aspectos clínicos e fisiopatológicos da Síndrome do Mau Ajustamento Neonatal em neonatos equinos, com foco especial no papel dos neuroesteróides durante a maturação cerebral do feto no terço final da gestação e na transição para a vida extra-uterina.

The transition from fetus to extrauterine life is considered a critical period that requires complex physiological adaptations on the part of the newborn foal. Peripartum hypoxic-ischemic stressors can result in equine neonatal encephalopathy, also known to as neonatal maladjustment syndrome. The diagnosis is made based on clinical examination, anamnesis, and a review of the mare’s pregnancy history. Cases that are mild to moderate in severity have a favorable prognosis. It is critical to understand the endocrinology of pregnancy and the role of neurosteroids in the development of the fetal nervous system in order to successfully initiate appropriate therapy early. Thus, the purpose of this article is to discuss the major clinical and pathophysiological aspects of neonatal maladjustment syndrome in equine neonates, with a particular emphasis on the role of neurosteroids during fetal brain maturation in the final third of pregnancy and during the transition to extrauterine life.

Intoxicação de um canino por ingestão de Cannabis sativa / Intoxication of a canine by ingestion of Cannabis sativa

A Cannabis sativa, popularmente conhecida como "maconha", é uma planta que possui elevada solubilidade, absorção, distribuição e metabolização no organismo. Seu principal componente químico é a substância psicoativa delta-9-tetrahidrocanabiol e possui receptores com ampla distribuição anatômica, principalmente no sistema nervoso central, periférico e células do sistema imunológico, influenciando na ação de diferentes neurotransmissores e respostas imunomoduladoras. Seus efeitos dependem da quantidade de substância ingerida e os sinais clínicos acometem principalmente os sistemas neurológico, gastrointestinal e cardiovascular. O objetivo deste trabalho é relatar o caso de um canino, fêmea, sem raça definida, de dois meses de idade, acompanhada em uma clínica veterinária de Fortaleza/CE. O animal apresentava histórico de ingestão de maconha e sinais clínicos como ataxia, hiperestesia e desorientação, sendo assim, foi realizado o diagnóstico presuntivo baseado na anamnese, no exame físico e no laboratorial. Foi adotado um tratamento sintomático à base de fluidoterapia, furosemida e aspartato de L-Ornitina. O animal ficou internado durante 24h, apresentou boa resposta ao tratamento sem complicações secundárias, com redução dos sinais clínicos, e após isso recebeu alta.

Cannabis sativa, popularly known as "marijuana", is a plant that has high solubility, absorption, distribution and metabolization in the body. Its main chemical component is the psychoactive substance delta-9- tetrahydrocannabinol, which has receptors with wide anatomical distribution, mainly in the central, peripheral nervous system and cells of the immune system, influencing the action of different neurotransmitters and immunomodulatory responses. Its effects depend on the amount of substance ingested and the clinical signs mainly affect the neurological, gastrointestinal and cardiovascular systems. The objective of this work is to report the case of a canine, female, mixed breed, two months old, followed up at a veterinary clinic in Fortaleza / CE. The animal had a history of marijuana ingestion, and clinical signs such as ataxia, hyperesthesia and disorientation, thus making the presumptive diagnosis based on anamnesis, physical and laboratory examination. A symptomatic treatment based on fluid therapy, furosemide and L-Ornithine aspartate was adopted. The animal was hospitalized for 24 hours, presented a good response to treatment without secondary complications with reduced clinical signs, and after that he was discharged.

Regression of dark color in subterranean fishes involves multiple mechanisms: response to hormones and neurotransmitters

Organisms with source-populations restricted to the subterranean biotope (troglobites) are excellent models for comparative evolutionary studies, due to their specialization to permanent absence of light. Eye and dark pigment regression are characteristics of most troglobites. In spite of the advance in knowledge on the mechanisms behind eye regression in cave fishes, very little is known about pigmentation changes. Studies were focused on three species of the genus Pimelodella. Exemplars of the troglobitic P. spelaea and P. kronei were compared with the epigean (surface) P. transitoria, putative sister-species of the latter. Melanophore areas and densities are significantly lower in the troglobitic species. Evaluating the in vitro response of these cells to adrenaline, acetylcholine and MCH, we observed a reduced response in both troglobites to adrenaline. The same trend was observed with MCH, but not statistically significant. No response to acetilcholine was detected in all the three. Contrary to expectations, even though eye-regression in P. spelaea was much lower than in P. kronei, pigmentation regression was more advanced. Multiple mechanisms of loss showing a mosaic of traits in troglobitic fishes are discussed here.(AU)

Organismos com populações-fonte restritas ao biótopo subterrâneo (troglóbios) são excelentes modelos para estudos evolutivos comparativos, devido à especialização resultante do isolamento sob um regime seletivo particular, com ênfase na permanente falta de luz. A regressão do olho e da pigmentação são características dos troglobites. Apesar do avanço do conhecimento sobre os mecanismos subjacentes à regressão ocular em peixes de caverna, pouco se sabe sobre mudanças de pigmentação. Os estudos foram focados em três espécies do gênero Pimelodella. Exemplares das espécies troglóbias P. spelaea e P. kronei foram comparados com a epígea P. transitoria, provável espécie-irmã dessa última. As áreas e densidades dos melanóforos são significativamente menores nas espécies troglóbias. Avaliando a resposta in vitro dessas células à adrenalina, acetilcolina e MCH, observamos uma resposta reduzida em ambos os troglóbios à adrenalina. A mesma tendência foi observado com o MCH, mas não estatisticamente. Nenhuma resposta à acetilcolina foi detectada três. Contrariamente às expectativas, embora a regressão ocular em P. spelaea seja bem menor do que em P. kronei, a regressão na pigmentação foi mais acentuada. Múltiplos mecanismos de regressão, mostrando um mosaico de características em peixes troglóbios, são discutidos aqui.(AU)

Regression of dark color in subterranean fishes involves multiple mechanisms: response to hormones and neurotransmitters

ABSTRACT Organisms with source-populations restricted to the subterranean biotope (troglobites) are excellent models for comparative evolutionary studies, due to their specialization to permanent absence of light. Eye and dark pigment regression are characteristics of most troglobites. In spite of the advance in knowledge on the mechanisms behind eye regression in cave fishes, very little is known about pigmentation changes. Studies were focused on three species of the genus Pimelodella. Exemplars of the troglobitic P. spelaea and P. kronei were compared with the epigean (surface) P. transitoria, putative sister-species of the latter. Melanophore areas and densities are significantly lower in the troglobitic species. Evaluating the in vitro response of these cells to adrenaline, acetylcholine and MCH, we observed a reduced response in both troglobites to adrenaline. The same trend was observed with MCH, but not statistically significant. No response to acetilcholine was detected in all the three. Contrary to expectations, even though eye-regression in P. spelaea was much lower than in P. kronei, pigmentation regression was more advanced. Multiple mechanisms of loss showing a mosaic of traits in troglobitic fishes are discussed here.

RESUMO Organismos com populações-fonte restritas ao biótopo subterrâneo (troglóbios) são excelentes modelos para estudos evolutivos comparativos, devido à especialização resultante do isolamento sob um regime seletivo particular, com ênfase na permanente falta de luz. A regressão do olho e da pigmentação são características dos troglobites. Apesar do avanço do conhecimento sobre os mecanismos subjacentes à regressão ocular em peixes de caverna, pouco se sabe sobre mudanças de pigmentação. Os estudos foram focados em três espécies do gênero Pimelodella. Exemplares das espécies troglóbias P. spelaea e P. kronei foram comparados com a epígea P. transitoria, provável espécie-irmã dessa última. As áreas e densidades dos melanóforos são significativamente menores nas espécies troglóbias. Avaliando a resposta in vitro dessas células à adrenalina, acetilcolina e MCH, observamos uma resposta reduzida em ambos os troglóbios à adrenalina. A mesma tendência foi observado com o MCH, mas não estatisticamente. Nenhuma resposta à acetilcolina foi detectada três. Contrariamente às expectativas, embora a regressão ocular em P. spelaea seja bem menor do que em P. kronei, a regressão na pigmentação foi mais acentuada. Múltiplos mecanismos de regressão, mostrando um mosaico de características em peixes troglóbios, são discutidos aqui.

Understanding the trade-off between the environment and fertility in cows and ewes

The environment contributes to production diseases that in turn badly affect cow performance, fertility and culling. Oestrus intensity is lower in lame cows, and in all cows 26% potential oestrus events are not expressed (to avoid getting pregnant). To understand these trade-offs, we need to know how animals react to their environment and how the environment influences hypothalamus-pituitary-adrenal axis (HPA) interactions with the hypothalamus-pituitary-ovarian axis (HPO). Neurotransmitters control secretion of GnRH into hypophyseal portal blood. GnRH/LH pulse amplitude and frequency drive oestradiol production, culminating in oestrus behaviour and a precisely-timed GnRH/LH surge, all of which are disrupted by poor environments. Responses to peripheral neuronal agents give clues about mechanisms, but do these drugs alter perception of stimuli, or suppress consequent responses? In vitro studies confirm some neuronal interactions between the HPA and HPO; and immuno-histochemistry clarifies the location and sequence of inter-neurone activity within the brain. In both species, exogenous corticoids, ACTH and/or CRH act at the pituitary (reduce LH release by GnRH), and hypothalamus (lower GnRH pulse frequency and delay surge release). This requires inter-neurones as GnRH cells do not have receptors for HPA compounds. There are two (simultaneous, therefore fail-safe?) pathways for CRH suppression of GnRH release via CRH-Receptors: one being the regulation of kisspeptin/dynorphin and other cell types in the hypothalamus, and the other being the direct contact between CRH and GnRH cell terminals in the median eminence. When we domesticate animals, we must provide the best possible environment otherwise animals trade-off with lower production, less intense oestrus behaviour, and impaired fertility. Avoiding life-time peri-parturient problems by managing persistent lactations in cows may be a worthy trade-off on both welfare and economic terms – better than the camouflage use of drugs/hormones/feed additives/intricate technologies? In the long term, getting animals and environment in a more harmonious balance is the ultimate strategy.

Understanding the trade-off between the environment and fertility in cows and ewes

The environment contributes to production diseases that in turn badly affect cow performance, fertility and culling. Oestrus intensity is lower in lame cows, and in all cows 26% potential oestrus events are not expressed (to avoid getting pregnant). To understand these trade-offs, we need to know how animals react to their environment and how the environment influences hypothalamus-pituitary-adrenal axis (HPA) interactions with the hypothalamus-pituitary-ovarian axis (HPO). Neurotransmitters control secretion of GnRH into hypophyseal portal blood. GnRH/LH pulse amplitude and frequency drive oestradiol production, culminating in oestrus behaviour and a precisely-timed GnRH/LH surge, all of which are disrupted by poor environments. Responses to peripheral neuronal agents give clues about mechanisms, but do these drugs alter perception of stimuli, or suppress consequent responses? In vitro studies confirm some neuronal interactions between the HPA and HPO; and immuno-histochemistry clarifies the location and sequence of inter-neurone activity within the brain. In both species, exogenous corticoids, ACTH and/or CRH act at the pituitary (reduce LH release by GnRH), and hypothalamus (lower GnRH pulse frequency and delay surge release). This requires inter-neurones as GnRH cells do not have receptors for HPA compounds. There are two (simultaneous, therefore fail-safe?) pathways for CRH suppression of GnRH release via CRH-Receptors: one being the regulation of kisspeptin/dynorphin and other cell types in the hypothalamus, and the other being the direct contact between CRH and GnRH cell terminals in the median eminence. When we domesticate animals, we must provide the best possible environment otherwise animals trade-off with lower production, less intense oestrus behaviour, and impaired fertility. Avoiding life-time peri-parturient problems by managing persistent lactations in cows may be a worthy trade-off on both welfare and economic terms better than the camouflage use of drugs/hormones/feed additives/intricate technologies? In the long term, getting animals and environment in a more harmonious balance is the ultimate strategy.(AU)

Fisiologia reprodutiva aplicada ao cultivo de peixes neotropicais / Reproductive physiology applied to neotropical fish rearing

A reprodução dos peixes teleósteos é regulada pela interação dos sistemas nervoso e endócrino, e essa interação é realizada pelo eixo hipotálamo-hipófise-gônadas (H-H-G). No entanto, sabe-se que os sinais ambientais (fotoperíodo, temperatura, pluviosidade entre outros fatores), são responsáveis por modular este processo. O eixo H-H-G, sintetiza e libera fatores internos (neuro-hormônios e neurotransmissores) e hormônios hipotalâmicos, hipofisários e gonadais que permitem a sincronização dos reprodutores aptos, que com condições ambientais adequadas permitem a reprodução em momento propício, com consequentemente maior sobrevivência da prole. O entendimento da fisiologia do eixo H-H-G tem sido muito importante para compreender os mecanismos regulatórios do controle neuroendócrino da reprodução em peixes teleósteos, possibilitando entender as razões do bloqueio da reprodução em cativeiro (piscicultura), ou quando a interrupção da migração reprodutiva (peixes reofílicos) por barragens é bloqueada, o que pode levar à extinção de espécies endêmicas. Esta revisão abordará o controle fisiológico do eixo H-H-G, com ênfase nas espécies neotropicais nacionais (espécies marinhas e dulciaquícolas) e discutirá as disfunções reprodutivas observadas nestes animais, quando em cativeiro. Neste contexto, a partir deste conhecimento teórico na fisiologia reprodutiva, a aplicação e/ou sugestões de tecnologias com o objetivo de obter sucesso na reprodução de espécies ameaçadas de extinção em cativeiro também serão abordados. É importante salientar que esta revisão não pretende cobrir todo o conhecimento sobre a fisiologia reprodutiva dos peixes teleósteos.

Teleost fish reproduction is regulated by the interaction of the nervous and endocrine systems, and this interaction is performed by the hypothalamic-pituitary-gonadal axis (H-H-G). However, it is known that environmental signals (photoperiod, temperature, rainfall, among other factors), are responsible to modulate this entire process. The H-H-G axis, synthesizes and releases internal factors (neurohormones and neurotransmitters) and hypothalamic, pituitary, and gonadal hormones that allow the synchronization of the able broodstocks and that, with adequate environmental conditions allow reproduction in the right time, and consequently, with a greater offspring survival. Understanding the physiology of the H-H-G axis has been important to understand the regulatory mechanisms of neuroendocrine control of reproduction in teleost fish, making it possible to understand the reasons for blocking reproduction in captivity (fish farming), or when the interruption of reproductive migration (reophilic fish) by dams is blocked, taking to the extinction of endemic species. This review will address the physiological control of the H-H-G axis, with an emphasis on National neotropical species (marine and freshwater species) and will discuss the reproductive dysfunctions observed in these animals when they are in captivity. In this context, from this theoretical knowledge about reproductive physiology, the application and/or suggestions of technologies with the objective of obtaining success in the reproduction of endangered species in captivity will also be considered. It is important to note that this review does not intend to cover all knowledge about the reproductive physiology of teleost fish.

Fisiologia reprodutiva aplicada ao cultivo de peixes neotropicais / Reproductive physiology applied to neotropical fish rearing

A reprodução dos peixes teleósteos é regulada pela interação dos sistemas nervoso e endócrino, e essa interação é realizada pelo eixo hipotálamo-hipófise-gônadas (H-H-G). No entanto, sabe-se que os sinais ambientais (fotoperíodo, temperatura, pluviosidade entre outros fatores), são responsáveis por modular este processo. O eixo H-H-G, sintetiza e libera fatores internos (neuro-hormônios e neurotransmissores) e hormônios hipotalâmicos, hipofisários e gonadais que permitem a sincronização dos reprodutores aptos, que com condições ambientais adequadas permitem a reprodução em momento propício, com consequentemente maior sobrevivência da prole. O entendimento da fisiologia do eixo H-H-G tem sido muito importante para compreender os mecanismos regulatórios do controle neuroendócrino da reprodução em peixes teleósteos, possibilitando entender as razões do bloqueio da reprodução em cativeiro (piscicultura), ou quando a interrupção da migração reprodutiva (peixes reofílicos) por barragens é bloqueada, o que pode levar à extinção de espécies endêmicas. Esta revisão abordará o controle fisiológico do eixo H-H-G, com ênfase nas espécies neotropicais nacionais (espécies marinhas e dulciaquícolas) e discutirá as disfunções reprodutivas observadas nestes animais, quando em cativeiro. Neste contexto, a partir deste conhecimento teórico na fisiologia reprodutiva, a aplicação e/ou sugestões de tecnologias com o objetivo de obter sucesso na reprodução de espécies ameaçadas de extinção em cativeiro também serão abordados. É importante salientar que esta revisão não pretende cobrir todo o conhecimento sobre a fisiologia reprodutiva dos peixes teleósteos.(AU)

Teleost fish reproduction is regulated by the interaction of the nervous and endocrine systems, and this interaction is performed by the hypothalamic-pituitary-gonadal axis (H-H-G). However, it is known that environmental signals (photoperiod, temperature, rainfall, among other factors), are responsible to modulate this entire process. The H-H-G axis, synthesizes and releases internal factors (neurohormones and neurotransmitters) and hypothalamic, pituitary, and gonadal hormones that allow the synchronization of the able broodstocks and that, with adequate environmental conditions allow reproduction in the right time, and consequently, with a greater offspring survival. Understanding the physiology of the H-H-G axis has been important to understand the regulatory mechanisms of neuroendocrine control of reproduction in teleost fish, making it possible to understand the reasons for blocking reproduction in captivity (fish farming), or when the interruption of reproductive migration (reophilic fish) by dams is blocked, taking to the extinction of endemic species. This review will address the physiological control of the H-H-G axis, with an emphasis on National neotropical species (marine and freshwater species) and will discuss the reproductive dysfunctions observed in these animals when they are in captivity. In this context, from this theoretical knowledge about reproductive physiology, the application and/or suggestions of technologies with the objective of obtaining success in the reproduction of endangered species in captivity will also be considered. It is important to note that this review does not intend to cover all knowledge about the reproductive physiology of teleost fish.(AU)

Quantification of the neurons of myenteric plexus of the bat molossus rufus / Quantificação dos neurônios do plexo mientérico de morcegos da espécie Molossus rufus

There are no studies that characterize the enteric nervous system (ENS) bats. The organization and density of myenteric neurons may vary according to the animal species, as well as the segment of the digestive tube considered. The nitric oxide is one of the key neurotransmitters present in the myenteric neurons, acting as a mediator in the smooth muscle relaxation. These neurons are evidenced by immunohistochemistry of nitric oxide synthase (NOS) or by NADPH-diaphorase histochemistry. In this sense, this study aimed to characterize the total neuronal population and subpopulation NADPH-d+ of the myenteric plexus present in the jejunum of the insectivore species Molossus rufus quantitatively. Five specimens were collected of M. rufus in a buffer area of the "Reserva Biológica das Perobas" in the microregion of Cianorte/PR. After the euthanasia, in a chamber saturated with isoflurane, segments were collected from the small intestine corresponding to the jejunum intended for two techniques for neuronal marking, Giemsa and NADPH-diaphorase, and a fragment to the histological technique of hematoxylin-eosin and Masson's trichrome. All the procedures were approved by the "Comitê de Ética no Uso de Animais Unipar" (CEUA - protocol No. 34347/2017) and the "Instituto Chico Mendes de Conservação da Biodiversidade" (ICMBio - protocol No. 60061-1) The histological sections allowed to highlight the location of the myenteric plexus between the longitudinal and circular layers of the muscular tunic. The myenteric plexus had an average of total neuronal population (neurons Giemsa+) of 279.23 neurons/mm2, being the nitrergic neurons (neurons NADPH-d+) represented 20.4% of this total population, with an average of 58.14 neuron/mm2. Therefore, the collected data are consistent with previous studies in other mammalian species concerning the location of the myenteric plexus, as well as the neural myenteric proportion NADPH-d+ compared with the population of neurons Giemsa+. The gaps in the knowledge of ENS of bats limits comparative intraspecific and interspecific studies.(AU)

Não há estudos que caracterizem o sistema nervoso entérico (SNE) destes animais, configurando uma lacuna no conhecimento quanto à biologia destes indivíduos. A organização e densidade dos neurônios mientéricos podem variar de acordo com a espécie animal bem como o segmento do tubo digestório considerado. O óxido nítrico é um dos principais neurotransmissores presentes nos neurônios mientéricos, atuando como mediador no relaxamento do músculo liso gastrointestinal, de modo que estes neurônios são evidenciados igualmente pela imunohistoquímica da óxido nítrico-sintase (NOS) ou pela histoquímica da NADPH-diaforase. Neste sentido, objetivou-se caracterizar quantitativamente a população neuronal total e subpopulação NADPH-d+ do plexo mientérico presente no jejuno da espécie Molossus rufus de hábito alimentar insetívoro. Foram coletados cinco espécimes de M. rufus em área de amortecimento da Reserva Biológica das Perobas na microrregião de Cianorte/PR. Após a eutanásia, em câmara saturada com isoflurano, foram coletados segmentos do intestino delgado correspondentes ao jejuno destinados a duas técnicas para marcação neuronal, Giemsa e NADPH-diaforase e, um fragmento para a técnica histológica de hematoxilina-eosina e tricômio de Masson. Todos os procedimentos realizados foram aprovados pelo Comitê de Ética no Uso de Animais da Unipar (CEUA - protocolo nº 34347/2017) e pelo Instituto Chico Mendes de Conservação da Biodiversidade (ICMBio - protocolo nº 60061-1) Os cortes histológicos possibilitaram evidenciar a localização do plexo mientérico entre os estratos longitudinal e circular da túnica muscular. Neurônios Giemsa+ apresentaram uma média de 279,23 neurônios/mm2, já os neurônios nitrérgicos apresentaram em média 20,4% da população neuronal mientérica total, sendo evidenciados 58,14 neurônios NADPH-d+/mm2. Portanto, os dados coletados mostram-se condizentes com estudos anteriores em outras espécies de mamíferos quanto à localização do plexo mientérico, bem como, a proporção neuronal mientérica NADPH-d+ comparada com a população de neurônios Giemsa+. As lacunas existentes quanto ao conhecimento do SNE de morcegos limita possíveis inferências em comparativo intraespecífico e interespecífico.(AU)

Quantification of the neurons of myenteric plexus of the bat molossus rufus / Quantificação dos neurônios do plexo mientérico de morcegos da espécie Molossus rufus

There are no studies that characterize the enteric nervous system (ENS) bats. The organization and density of myenteric neurons may vary according to the animal species, as well as the segment of the digestive tube considered. The nitric oxide is one of the key neurotransmitters present in the myenteric neurons, acting as a mediator in the smooth muscle relaxation. These neurons are evidenced by immunohistochemistry of nitric oxide synthase (NOS) or by NADPH-diaphorase histochemistry. In this sense, this study aimed to characterize the total neuronal population and subpopulation NADPH-d+ of the myenteric plexus present in the jejunum of the insectivore species Molossus rufus quantitatively. Five specimens were collected of M. rufus in a buffer area of the "Reserva Biológica das Perobas" in the microregion of Cianorte/PR. After the euthanasia, in a chamber saturated with isoflurane, segments were collected from the small intestine corresponding to the jejunum intended for two techniques for neuronal marking, Giemsa and NADPH-diaphorase, and a fragment to the histological technique of hematoxylin-eosin and Masson's trichrome. All the procedures were approved by the "Comitê de Ética no Uso de Animais Unipar" (CEUA - protocol No. 34347/2017) and the "Instituto Chico Mendes de Conservação da Biodiversidade" (ICMBio - protocol No. 60061-1) The histological sections allowed to highlight the location of the myenteric plexus between the longitudinal and circular layers of the muscular tunic. The myenteric plexus had an average of total neuronal population (neurons Giemsa+) of 279.23 neurons/mm2, being the nitrergic neurons (neurons NADPH-d+) represented 20.4% of this total population, with an average of 58.14 neuron/mm2. Therefore, the collected data are consistent with previous studies in other mammalian species concerning the location of the myenteric plexus, as well as the neural myenteric proportion NADPH-d+ compared with the population of neurons Giemsa+. The gaps in the knowledge of ENS of bats limits comparative intraspecific and interspecific studies.(AU)

Não há estudos que caracterizem o sistema nervoso entérico (SNE) destes animais, configurando uma lacuna no conhecimento quanto à biologia destes indivíduos. A organização e densidade dos neurônios mientéricos podem variar de acordo com a espécie animal bem como o segmento do tubo digestório considerado. O óxido nítrico é um dos principais neurotransmissores presentes nos neurônios mientéricos, atuando como mediador no relaxamento do músculo liso gastrointestinal, de modo que estes neurônios são evidenciados igualmente pela imunohistoquímica da óxido nítrico-sintase (NOS) ou pela histoquímica da NADPH-diaforase. Neste sentido, objetivou-se caracterizar quantitativamente a população neuronal total e subpopulação NADPH-d+ do plexo mientérico presente no jejuno da espécie Molossus rufus de hábito alimentar insetívoro. Foram coletados cinco espécimes de M. rufus em área de amortecimento da Reserva Biológica das Perobas na microrregião de Cianorte/PR. Após a eutanásia, em câmara saturada com isoflurano, foram coletados segmentos do intestino delgado correspondentes ao jejuno destinados a duas técnicas para marcação neuronal, Giemsa e NADPH-diaforase e, um fragmento para a técnica histológica de hematoxilina-eosina e tricômio de Masson. Todos os procedimentos realizados foram aprovados pelo Comitê de Ética no Uso de Animais da Unipar (CEUA - protocolo nº 34347/2017) e pelo Instituto Chico Mendes de Conservação da Biodiversidade (ICMBio - protocolo nº 60061-1) Os cortes histológicos possibilitaram evidenciar a localização do plexo mientérico entre os estratos longitudinal e circular da túnica muscular. Neurônios Giemsa+ apresentaram uma média de 279,23 neurônios/mm2, já os neurônios nitrérgicos apresentaram em média 20,4% da população neuronal mientérica total, sendo evidenciados 58,14 neurônios NADPH-d+/mm2. Portanto, os dados coletados mostram-se condizentes com estudos anteriores em outras espécies de mamíferos quanto à localização do plexo mientérico, bem como, a proporção neuronal mientérica NADPH-d+ comparada com a população de neurônios Giemsa+. As lacunas existentes quanto ao conhecimento do SNE de morcegos limita possíveis inferências em comparativo intraespecífico e interespecífico.(AU)

Neurobehavioral and neuroprotector effects of caffeine in animal models

This review aims to analyze and contrast the neurological effects associated with the use of caffeine on neurobehavior and neuroprotection in animal models. Caffeine belongs to the group of methylxanthines that exert a direct effect on adenosine receptors associated with inhibitory or excitatory G proteins, generating modification of cyclic AMP activity and intracellular calcium flow which produces alterations in the modulation system of the neurotransmitters dopamine and glutamate. The regulation of the neurotransmission systems generates protection against the inflammation of the central nervous system, by activation of the microglia and reinforcement of the blood-brain barrier. This drug will also restore cognition or prevent memory loss in Parkinson's or Alzheimer's diseases. It is important to establish new study models in other species to assess whether the behavior of the molecule is similar and to obtain other clinical applications in its behavioral and neuroprotective effects.(AU)

Neurobehavioral and neuroprotector effects of caffeine in animal models

This review aims to analyze and contrast the neurological effects associated with the use of caffeine on neurobehavior and neuroprotection in animal models. Caffeine belongs to the group of methylxanthines that exert a direct effect on adenosine receptors associated with inhibitory or excitatory G proteins, generating modification of cyclic AMP activity and intracellular calcium flow which produces alterations in the modulation system of the neurotransmitters dopamine and glutamate. The regulation of the neurotransmission systems generates protection against the inflammation of the central nervous system, by activation of the microglia and reinforcement of the blood-brain barrier. This drug will also restore cognition or prevent memory loss in Parkinson's or Alzheimer's diseases. It is important to establish new study models in other species to assess whether the behavior of the molecule is similar and to obtain other clinical applications in its behavioral and neuroprotective effects.