ABSTRACT
The aim of the present study was to investigate the effects of exercises with different durations and intensities on mitochondrial autophagy and FUNDC1 in rat skeletal muscles. Sixty male Sprague-Dawley rats were randomly divided into 2- and 4-week control groups (Con), moderate-intensity exercise groups (M-ex groups, treadmill exercise, 16 m/min, 1 h/d, 6 d/week), and high-intensity exercise groups (Hi-ex groups, treadmill exercise, 35 m/min, 20 min/d, 6 d/week). The bilateral soleus muscles were separated after the intervention, and paraffin sections were prepared for transmission electron microscopy. ELISA method was used to detect the content of citrate synthase (CS). The co-localizations of microtubule-associated protein 1 light chain 3 (LC3)/cytochrome c oxidase IV (COX-IV), FUNDC1/COX-IV and LC3/FUNDC1 were observed by immunofluorescent staining in frozen sections. The skeletal muscle mitochondria were extracted, and the expression of autophagy-related proteins, including AMPKα, p-AMPKα, Unc-51 like kinase 1 (ULK1), FUNDC1, LC3 and p62, were detected by Western blot. The results showed that exercise increased mitochondrial function, i.e. peroxisome proliferator-activated receptor γ co-activator-1α (PGC-1α), COX-I protein expression levels and CS content. There was no difference of mitochondrial function parameters between 2-week M-ex and 2-week Hi-ex groups, while mitochondrial function of 4-weeks Hi-ex group was significantly lower than that of 4-week M-ex group. Under the same exercise intensity, mitochondrial autophagy activation in skeletal muscle of 4-week exercise was higher than that in 2-week exercise group; Under the same duration of exercise, mitochondrial autophagy activation of Hi-ex group was higher than that in M-ex group. Both 2- and 4-week exercise intervention increased LC3/COX-IV, COX-IV/FUNDC1, and FUNDC1/LC3 co-localizations. Exercise increased LC3-II/LC3-I ratio, down-regulated p62 protein expression level, up-regulated FUNDC1, ULK1 protein expression levels and AMPKα phosphorylation, and the changes of these proteins in 4-week Hi-ex group were significantly greater than those in 4-week M-ex group. These results suggest exercise induces mitochondrial autophagy in skeletal muscles, and the activity of autophagy is related to the duration and intensity of exercise. The induction mechanism of exercise may involve the mediation of FUNDC1 expression through AMPK-ULK1 pathway.
Subject(s)
Animals , Humans , Male , Rats , Autophagy , Exercise Therapy , Membrane Proteins/physiology , Mitochondria , Mitochondrial Proteins/physiology , Muscle, Skeletal/metabolism , Rats, Sprague-DawleyABSTRACT
The identification and use of molecular biomarkers have greatly improved the diagnosis and treatment of malignant tumors. However, a much deeper understanding of oncogenic proteins is needed for the benefit to cancer patients. The lipid raft marker proteins, flotillin-1 and flotillin-2, were first found in goldfish retinal ganglion cells during axon regeneration. They have since been found in a variety of cells, mainly on the inner surface of cell membranes, and not only act as a skeleton to provide a platform for protein-protein interactions, but also are involved in signal transduction, nerve regeneration, endocytosis, and lymphocyte activation. Previous studies have shown that flotillins are closely associated with tumor development, invasion, and metastasis. In this article, we review the functions of flotillins in relevant cell processes, their underlying mechanisms of action in a variety of tumors, and their potential applications to tumor molecular diagnosis and targeted therapy.
Subject(s)
Animals , Humans , Cell Differentiation , Endocytosis , Membrane Proteins/physiology , Neoplasms/etiology , Nerve RegenerationABSTRACT
Bipolar I disorder is a common disorder with a complex etiology. A genetic approach is gaining increasing importance in this disorder. The dysbindin gene, located at 6p22.3 is considered a susceptibility gene for schizophrenia. Certain genotypes of dysbindin are thought to be associated with other psychoses such as bipolar disorders. This study intends to assess the association in previously implicated dysbindin genotypes and haplotypes with bipolar I disorder in an Iranian population. We genotyped four previously reported SNPs: rs2619522, rs1018381, 2743852 and rs2619538. Their haplotypes were analyzed in a population of 124 patients that consisted of 44 confirmed bipolar I disorder patients and 80 control subjects. We used multiple allele-specific PCR method for genotyping, which was verified by direct sequencing. In concordance with previous reports in other populations our findings showed no association between the single SNPs and bipolar I disorder. Furthermore, none of the alleles showed a significant association with the disorder. In contrast to previous reports, haplotype analysis did not reveal any statistically significant associations with bipolar I disorder. Considering reports of previous studies regarding the implication of these dysbindin genotypes in bipolar I disorder, it is probable that allelic heterogeneity along with lack of an established causal variant in the dysbindin gene can be main factors for this discordance. With regards to ethnicities in other studies, population variation can also be considered an important factor in the observed variation
Subject(s)
Humans , Male , Female , Genotype , Genetic Association Studies , Membrane Proteins/physiology , Alleles , Polymerase Chain Reaction , Dystrophin-Associated Proteins/geneticsABSTRACT
For many years, prokaryotic cells were distinguished from eukaryotic cells based on the simplicity of their cytoplasm, in which the presence of organelles and cytoskeletal structures had not been discovered. Based on current knowledge, this review describes the complex components of the prokaryotic cell cytoskeleton, including (i) tubulin homologues composed of FtsZ, BtuA, BtuB and several associated proteins, which play a fundamental role in cell division, (ii) actin-like homologues, such as MreB and Mb1, which are involved in controlling cell width and cell length, and (iii) intermediate filament homologues, including crescentin and CfpA, which localise on the concave side of a bacterium and along its inner curvature and associate with its membrane. Some prokaryotes exhibit specialised membrane-bound organelles in the cytoplasm, such as magnetosomes and acidocalcisomes, as well as protein complexes, such as carboxysomes. This review also examines recent data on the presence of nanotubes, which are structures that are well characterised in mammalian cells that allow direct contact and communication between cells.
Subject(s)
Bacteria/ultrastructure , Cytoskeleton/ultrastructure , Nanotubes/ultrastructure , Organelles/ultrastructure , Prokaryotic Cells/ultrastructure , Cytoskeleton/physiology , Microscopy, Electron, Transmission , Membrane Proteins/physiology , Organelles/physiology , Prokaryotic Cells/physiologyABSTRACT
Bacillus anthracis es un bacilo gram positivo del grupo Bacillus cereus, que posee un genoma extremadamente monomórfco y comparte gran similitud fsiológica y de estructura genética con B. cereus y Bacillus thuringiensis. En este artículo se describen nuevos métodos moleculares para la identifcación y tipifcación de B. anthracis, basados en repeticiones en tándem de número variable o en diferencias genéticas detectadas por secuenciación, desarrollados en los últimos años. Los aspectos moleculares de los factores de virulencia tradicionales, cápsula, antígeno protector, factor letal y factor edema se describen en profundidad, junto con factores de virulencia recientemente propuestos, como los sideróforos, petrobactina y bacilibactina, la adhesina de la capa S y la lipoproteína MntA. También se detalla la organización molecular de los megaplásmidos pXO1 y pXO2, incluyendo la isla de patogenicidad de pXO1. El esqueleto genético de estos plásmidos se ha encontrado en otras especies relacionadas, probablemente debido a eventos de transferencia lateral. Finalmente, se presentan los dos receptores celulares del antígeno protector, ANTXR1/TEM8 y ANTXR2/CMG2, esenciales en la interacción del patógeno con el hospedador. Los estudios moleculares realizados en los últimos años han permitido aumentar enormemente el conocimiento de los diferentes aspectos de este microorganismo y su relación con el hospedador, pero a la vez han abierto nuevos interrogantes sobre este notorio patógeno.
Bacillus anthracis, a gram-positive rod belonging to the Bacillus cereus group, has an extremely monomorphic genome, and presents high structural and physiological similarity with B. cereus and Bacillus thuringiensis. In this work, the new molecular methods for the identifcation and typing of B. anthracis developed in the last years, based on variable number tandem repeats or on genetic differences detected through sequencing, are described. The molecular aspects of traditional virulence factors: capsule, protective antigen, lethal factor and edema factor are described in depth, together with virulence factors recently proposed, such as the siderophores petrobactin and bacillibactin, the S-layer adhesin and the MntA lipoprotein. It is detailed the molecular organization of megaplasmids pXO1 and pXO2, including the pathogenicity island of pXO1. The genetic skeleton of these plasmids has been observed in related species, and this could be attributed to lateral gene transfer. Finally, the two anthrax toxin protective antigen receptors, ANTXR1/TEM8 and ANTXR2/CMG2, essential for the interaction of the pathogen with the host, are presented. The molecular studies performed in recent years have greatly increased knowledge in different aspects of this microorganism and its relationship with the host, but at the same time they have raised new questions about this noted pathogen.
Subject(s)
Animals , Humans , Anthrax/microbiology , Bacillus anthracis/physiology , Anthrax/epidemiology , Anthrax/veterinary , Antigens, Bacterial/immunology , Antigens, Bacterial/physiology , Bacterial Toxins , Bacterial Typing Techniques , Base Sequence , Bacillus anthracis/classification , Bacillus anthracis/genetics , Bacillus anthracis/pathogenicity , Bacillus/classification , Bacterial Capsules/physiology , DNA, Bacterial/genetics , Genomic Islands/physiology , Minisatellite Repeats , Molecular Sequence Data , Membrane Proteins/genetics , Membrane Proteins/physiology , Neoplasm Proteins/genetics , Neoplasm Proteins/physiology , Plasmids , Polymorphism, Single Nucleotide , Receptors, Cell Surface/genetics , Receptors, Cell Surface/physiology , Sequence Alignment , Sequence Homology, Nucleic Acid , Virulence/genetics , Virulence/physiology , ZoonosesABSTRACT
Neurons are highly polarized, but the trafficking mechanisms that operate in these cells and the topological organization of their secretory organelles are still poorly understood. Particularly incipient is our knowledge of the role of the neuronal endoplasmic reticulum. Here we review the current understanding of the endoplasmic reticulum in neurons, its structure, composition, dendritic distribution and dynamics. We also focus on the trafficking of proteins through the dendritic endoplasmic reticulum, emphasizing the relevance of transport, retention, assembly of multi-subunit protein complexes and export. We additionally discuss the roles of the dendritic endoplasmic reticulum in synaptic plasticity.
Subject(s)
Humans , Cell Membrane Permeability/physiology , Dendrites/physiology , Endoplasmic Reticulum/physiology , Membrane Proteins/physiology , Neuronal Plasticity/physiology , Dendrites/metabolism , Endoplasmic Reticulum/metabolism , Membrane Proteins/metabolism , Protein Transport/physiologyABSTRACT
Atomic force microscopy (AFM) is an emerging technique for a variety of uses involving the analysis of cells. AFM is widely applied to obtain information about both cellular structural and subcellular events. In particular, a variety of investigations into membrane proteins and microfilaments were performed with AFM. Here, we introduce applications of AFM to molecular imaging of membrane proteins, and various approaches for observation and identification of intracellular microfilaments at the molecular level. These approaches can contribute to many applications of AFM in cell imaging.
Subject(s)
Cell Membrane/ultrastructure , Membrane Proteins/physiology , Actin Cytoskeleton/physiology , Microscopy, Atomic Force , Molecular Imaging/methodsABSTRACT
Recently, glycosphingolipids have been attracting attention due to their role on biological systems as second messengers or modulators of signal transduction, affecting several events, which range from apoptosis to regulation of the cell cycle. In pathogenic fungi, glycolipids are expressed in two classes: neutral monohexosylceramides (glucosyl-or galactosylceramide) and acidic glycosylinositol phosphorylceramides (the latter class carries longer glycan chains). It is worth to mention that monohexosylceramides exhibit significant structural differences in their lipid moieties compared to their mammalian counterparts, whereas the glycosylinositol phosphorylceramides exhibit remarkable structural differences in their carbohydrate moieties in comparison to mammal glycosphingolipids counterpart. We observed that glycosylinositol phosphorylceramides are capable of promoting immune response in infected humans. In addition, inhibiting fungal glycosphingolipid biosynthetic pathways leads to an inhibition of colony formation, spore germination, cell cycle, dimorphism and hyphal growth. Other pathogens, such as trypanosomatids, also present unique glycolipids, which may have an important role for the parasite development and/or disease establishment. Regarding host-pathogen interaction, cell membrane rafts, which are enriched in sphingolipids and sterols, participate in parasite/fungal infection. In this review, it is discussed the different biological roles of (glyco) (sphingo) lipids of pathogenic/opportunistic fungi and trypanosomatids.
Recentemente, glicoesfingolipídeos têm atraído atenção devido ao seu papel na biologia celular como segundo-mensageiro ou moduladores da transdução de sinal, afetando vários eventos, desde apoptose até a regulação do ciclo celular. Em fungos patogênicos, existem duas classes de glicolipídeos: monohexosil ceramidas neutras (glucosil-ou galactosilceramida) e glicosilinositol fosforilceramidas (os quais apresentam cadeias de carboidratos mais longas). É importante enfatizar que as monohexosil ceramidas exibem diferenças estruturais nas suas porções lipídicas quando comparadas às de mamíferos, enquanto que glicosilinositol fosforilceramidas exibem diferenças estruturais marcantes em suas porções carboidratos em comparação aos glicoesfingolipídeos de mamíferos. Observamos também que glicosilinositol fosforilceramidas são capazes de promover resposta imune em indíviduos infectados. Além do mais, inibição das vias biossintéticas de glicoesfingolipídeos de fungos acarreta a inibição da formação de colônias, germinação de esporos, ciclo celular, dimorfismo e crescimento de hifas. Outros patógenos, como os tripanosomatídeos, também apresentam glicolipídeos únicos, os quais apresentam um papel importante para o desenvolvimento do parasita e/ou para o estabelecimento da doença. Em relação à interação hospedeiro-patógeno, os "membrane rafts", estruturas da membrana plasmática enriquecidas em esfingolipídeos e esteróis, têm participação fundamental na infecção do parasita/fungo. Nesta revisão, discutimos os diferentes papéis biológicos dos (glico) (esfingo) lipídeos de fungos patogênicos/oportunistas e de tripanosomatídeos.
Subject(s)
Animals , Humans , Fungi/chemistry , Glycolipids/physiology , Leishmania/chemistry , Sphingolipids/physiology , Fungi/physiology , Glycosylphosphatidylinositols/physiology , Host-Pathogen Interactions/physiology , Leishmania/physiology , Membrane Proteins/physiologyABSTRACT
Syncytialization is one of the most fundamental processes in life. It is observed during development of muscle and osteoclast, and syncytiotrophoblast formation in placental villi. Syncytialization involves recognition, migration, adhesion and finally cell fusion between two interacting cells. It is an energy-dependent process which is essentially restricted to a small portion of interacting cellular membranes. Such regions of membranes may differ from other regions of cell surface in terms of physico-chemistry and expression of specific protein biomolecules resulting in restriction of this process to cells of specific competence. Despite the fact that membrane biologists have given significant quanta of efforts to understand the basic principle underlying this fundamental process of life, further large scale initiatives have to be undertaken to dissect the underlying molecular correlates central to this event.
Subject(s)
ADAM Proteins/physiology , Animals , Caspases/physiology , Cell Fusion , Chorionic Villi/physiology , Connexins/physiology , Humans , Membrane Fusion , Membrane Proteins/physiology , Trophoblasts/physiology , Viral Fusion Proteins/physiologyABSTRACT
Antecedentes. Los canales iónicos ASIC (del inglés Acid Sensing Ion Channel) son canales iónicos activados por reducciones transitorias en el pH extracelular. Pese a no conocerse con exactitud su mecanismo, la activación ocurre por medio de la unión de protones al dominio extracelular del canal y es modulada por iones calcio y zinc. Objetivo. El hecho de que los cationes divalentes modifiquen el funcionamiento del canal nos llevó a preguntar si el plomo, otro catión divalente, sería capaz de alterar el funcionamiento de los ASIC. Métodos y resultados. Mediante el uso de la técnica de fijación de voltaje en configuración de célula completa en las neuronas de los ganglios de la raíz dorsal de la rata, encontramos que el plomo inhibe la corriente ASIC en forma dependiente de la concentración. Conclusiones. Estos resultados contribuyen a definir los mecanismos de activación de los canales ASIC y a explicar algunos de los mecanismos tóxicos del plomo en el organismo.
BACKGROUND: Acid sensing ion channels (ASIC) are ionic channels activated by transient pH reductions in the ext raceilularenvi ronment. Although the activation mechanism is not fully elucidated, it is clear that the channel is activated by proton binding to its extraceilular domain, a process that is modulated by calcium and zinc. OBJECTIVE: The fact that divalent cations are able to modify ASIC operation, lead us to consider if lead, anotherdivalent cation and widely distributed neurotoxicant, is also capable to affect ASIC function. METHODS: For this purpose, we recordedASiC currents in rat dorsal root ganglion neurons using the whole cell patch-clamp technique. RESULTS: The results indicated that lead inhibits ASIC currents in a concentration -dependent fashion. CONCLUSIONS: These results contribute to the understanding of the activation mechanism of ASIC and to explain some of the toxic mechanisms of lead in the organism.
Subject(s)
Animals , Rats , Sodium Channels/drug effects , Organometallic Compounds/toxicity , Ganglia, Spinal/drug effects , Membrane Proteins/drug effects , Nerve Tissue Proteins/drug effects , Sodium Channels/physiology , Ganglia, Spinal/physiopathology , Membrane Potentials/drug effects , Membrane Potentials/physiology , Membrane Proteins/physiology , Nerve Tissue Proteins/physiology , Rats, WistarABSTRACT
OBJETIVO: Comparar os antagonistas de leucotrienos (ARLT) aos outros grupos de medicamentos utilizados para tratar a asma e a rinite alérgica. FONTES DOS DADOS: MEDLINE, LILACS e Biblioteca Cochrane. Palavras chaves: leucotrienos, antileucotrienos, tratamento da asma, tratamento da rinite alérgica, asma e rinite alérgica. Procurou-se agrupar os principais trabalhos e revisões sobre o assunto. SíNTESE DOS DADOS: Os ARLT são mais eficazes do que placebo e potencializam os efeitos dos corticosteróides inalados. A associação de corticosteróides inalados com agentes beta2 agonistas de longa duração (LABA) é mais eficaz do que a associação de cortiscoteróides inalados + ARLT. Embora pareça racional o uso de ARLT na crise aguda de asma e rinite alérgica, mais estudos são necessários para comprovar esse benefício. Os ARLT promovem redução no tempo de hospitalização e no número de crises de sibilância em lactentes com bronquiolite viral aguda pelo vírus respiratório sincicial e na sibilância recorrente após bronquiolite viral aguda. Os ARLT são menos eficazes que os corticosteróides intranasais no manejo da rinite alérgica. Os ARLT são eficazes na asma induzida por exercício (AIE), embora não constituam a primeira linha de tratamento. CONCLUSÃO: Estudos controlados e randomizados mostram que os corticosteróides inalados são as drogas de escolha para o tratamento da asma persistente e rinite alérgica. :Não existem evidências suficientes para recomendar o uso de ARLT como medicamento de primeira linha (monoterapia) em crianças com asma (nível I). Nas crianças que não podem usar corticosteróides inalados, os ARLT podem ser uma alternativa (nível II).
OBJECTIVE: To compare leukotriene antagonists (LTA) to other groups of drugs used in asthma and allergic rhinitis treatment. SOURCES: MEDLINE, LILACS and Cochrane Library. Keywords: leukotrienes, antileukotrienes, asthma treatment, allergic rhinitis treatment, asthma and allergic rhinitis. An attempt was made to group the main studies and reviews about this topic. SUMMARY OF THE FINDINGS: LTA are more efficient than placebo and enhance the effects of inhaled corticosteroids. The association of inhaled corticosteroids with long-acting beta2-agonists is more efficient than the association of inhaled corticosteroids + LTA. Although use of LTA in acute asthma attacks and allergic rhinitis seems reasonable, more studies are needed to confirm this benefit. LTA reduce hospitalization time and the number of wheezing attacks in infants with acute viral bronchiolitis caused by respiratory syncytial virus, as well as recurrent wheezing after acute viral bronchiolitis. LTA are less efficient than intranasal corticosteroids for allergic rhinitis management. LTA are efficient in exercise-induced asthma, although they are not the first-line treatment. CONCLUSIONS: Controlled and randomized studies show that inhaled corticosteroids are the drugs of choice to treat persistent asthma and allergic rhinitis. There is not enough evidence to recommend the use of LTA as first-line drug (monotherapy) in children with asthma (level I). For children who cannot use inhaled corticosteroids, LTA may be a good alternative (level II).
Subject(s)
Humans , Infant , Child , Adrenal Cortex Hormones/therapeutic use , Adrenergic beta-Agonists/therapeutic use , Anti-Asthmatic Agents/therapeutic use , Asthma/drug therapy , Leukotriene Antagonists/therapeutic use , Rhinitis/drug therapy , Acute Disease , Administration, Inhalation , Adrenal Cortex Hormones/pharmacology , Adrenergic beta-Agonists/pharmacology , Anti-Asthmatic Agents/pharmacology , Asthma, Exercise-Induced/drug therapy , Drug Combinations , Leukotriene Antagonists/pharmacology , Leukotrienes/classification , Leukotrienes/metabolism , Leukotrienes/pharmacology , Membrane Proteins/metabolism , Membrane Proteins/physiology , Practice Guidelines as Topic , Receptors, Leukotriene/metabolism , Receptors, Leukotriene/physiology , Respiratory System/drug effects , Treatment OutcomeABSTRACT
A síndrome de Wolfram (SW) é uma condição neurodegenerativa progressiva de herança autossômica recessiva caracterizada pela presença de diabetes mellitus e atrofia óptica. Freqüentemente também estão presentes o diabetes insipidus e disacusia neurossensorial, explicando o acrônimo DIDMOAD (diabetes insipidus, diabetes mellitus, optic atrophy, deafness) pelo qual a síndrome é também conhecida. Além desses, outros comemorativos tais como bexiga neurogênica, ataxia, nistagmo e predisposição a doenças psiquiátricas podem também estar presentes. Em 1994 identificou-se no cromossomo 4p16.1 um dos genes responsáveis pela SW, que foi denominado WFS1 ou wolframina. Esse gene codifica uma proteína de 890 aminoácidos de localização no retículo endoplasmático. A função da proteína wolframina ainda não está completamente definida, porém sua localização no retículo endoplasmático sugere um papel na regulação da homeostase do cálcio, transporte de membrana ou processamento protéico. O entendimento de como alterações na função da wolframina resultam em diabetes e neurodegeneração é essencial para o desenvolvimento de terapias para prevenir ou atenuar as conseqüências da SW.
Wolfram syndrome (WS) is an autosomal recessive progressive neurodegenerative disorder characterized by diabetes mellitus and optic atrophy. Diabetes insipidus and sensorineural deafness are also noted frequently, explaining the acronym DIDMOAD (diabetes insipidus, diabetes mellitus, optic atrophy and deafness) by which the syndrome is also referred. Additional manifestations such as atonic bladder, ataxia, nystagmus and predisposition for psychiatric illness may be present. The Wolfram syndrome gene, WFS1, was mapped to chromosome 4p16.1 by positional cloning. It encodes an 890-amino-acid polypeptide named wolframin. Although the wolframin function is still not completely known, its localization to the endoplasmic reticulum suggests it can play a role in calcium homeostasis, membrane trafficking and protein processing. Knowing the cellular function of wolframin is necessary for understanding the pathophysiology of Wolfram syndrome. This knowledge may lead to development of therapies to prevent or reduce the outcomes of WS.
Subject(s)
Humans , Membrane Proteins/physiology , Wolfram Syndrome/pathology , Mutation , Membrane Proteins/genetics , Time Factors , Wolfram Syndrome/genetics , Wolfram Syndrome/physiopathologyABSTRACT
Ischemic pain occurs when there is insufficient blood flow for the metabolic needs of an organ. The pain of a heart attack is the prototypical example. Multiple compounds released from ischemic muscle likely contribute to this pain by acting on sensory neurons that innervate muscle. One such compound is lactic acid. Here, we show that ASIC3 (acid-sensing ion channel #3) has the appropriate expression pattern and physical properties to be the detector of this lactic acid. In rats, it is expressed only in sensory neurons and then only on a minority (40 percent) of these. Nevertheless, it is expressed at extremely high levels on virtually all dorsal root ganglion sensory neurons that innervate the heart. It is extraordinarily sensitive to protons (Hill slope 4, half-activating pH 6.7), allowing it to readily respond to the small changes in extracellular pH (from 7.4 to 7.0) that occur during muscle ischemia. Moreover, both extracellular lactate and extracellular ATP increase the sensitivity of ASIC3 to protons. This final property makes ASIC3 a "coincidence detector" of three molecules that appear during ischemia, thereby allowing it to better detect acidosis caused by ischemia than other forms of systemic acidosis such as hypercapnia.
Subject(s)
Animals , Rats , Lactic Acid/metabolism , Sodium Channels/physiology , Pain/physiopathology , Ischemia/physiopathology , Neurons, Afferent/physiology , Membrane Proteins/physiology , Nerve Tissue Proteins/physiology , Hydrogen-Ion ConcentrationABSTRACT
The availability of the complete genome of the Gram-negative beta-proteobacterium Chromobacterium violaceum has increasingly impacted our understanding of this microorganism. This review focuses on the genomic organization and structural analysis of the deduced proteins of the chemosensory adaptation system of C. violaceum. C. violaceum has multiple homologues of most chemotaxis genes, organized mostly in clusters in the bacterial genome. We found at least 67 genes, distributed in 10 gene clusters, involved in the chemotaxis of C. violaceum. A close examination of the chemoreceptors methyl-accepting chemotaxis proteins (MCPs), and the deduced sequences of the members of the two-component signaling system revealed canonical motifs, described as essential for the function of the deduced proteins. The chemoreceptors found in C. violaceum include the complete repertoire of such genes described in bacteria, designated as tsr, tar, trg, and tap; 41 MCP loci were found in the C. violaceum genome. Also, the C. violaceum genome includes a large repertoire of the proteins of the chemosensory transducer system. Multiple homologues of bacterial chemotaxis genes, including CheA, CheB, CheD, CheR, CheV, CheY, CheZ, and CheW, were found in the C. violaceum genome
Subject(s)
Chromobacterium/genetics , Flagella/genetics , Genes, Bacterial/genetics , Bacterial Proteins/genetics , Chemotaxis/genetics , Chromobacterium/physiology , Flagella/physiology , Genome, Bacterial , Genes, Bacterial/physiology , Bacterial Proteins/physiology , Membrane Proteins/genetics , Membrane Proteins/physiology , Chemotaxis/physiologyABSTRACT
Cholesterol is an important lipid in higher organisms, and its concentration must be maintained in narrow limits depending of the cell needs. An excess of dietary cholesterol can lead to serious health problems, however, if consumption of this lipid is restricted in the diet, cells have the capacity to synthesize it. For the synthesis of cholesterol, the cell uses a family of proteins named sterol regulatory element binding proteins (SREBP's), that are transcriptional factors involved in the control of expression of genes of cholesterol and fatty acids synthesis. SREBP's regulate gene transcription by binding to cis-acting elements denominated sterol regulatory elements (SRE-1). SREBP's are localized in the endoplasmic reticulum, but in the event that the cell needs to synthesize cholesterol, the NH2-terminal portion of these proteins is cleaved by two specific proteases, and then travels into the nucleus to function as transcriptional factor. The present review shows the details of the mechanism that the cell uses to regulate cholesterol biosynthesis by the SREBP's, and its potential metabolic implications.
Subject(s)
Humans , Animals , Cricetinae , Mice , Cholesterol , DNA-Binding Proteins , Fatty Acids/biosynthesis , Transcription Factors/physiology , CCAAT-Enhancer-Binding Proteins/physiology , Gene Expression Regulation/physiology , Cholesterol, Dietary , DNA-Binding Proteins , Genes , Insulin , Mice, Mutant Strains , Transcription Factors/genetics , Protein Isoforms/physiology , Membrane Proteins/physiology , CCAAT-Enhancer-Binding Proteins/genetics , Regulatory Sequences, Nucleic AcidABSTRACT
CONTEXT: It has been reported that the equilibrium between the erythrocyte protease calpain I and its physiological inhibitor calpastatin is disrupted in patients with essential hypertension. OBJECTIVE: To investigate the activity of non-purified calpain I in hemolysates against the erythrocytic membrane proteins, rather than against other substrates. DESIGN: Evaluation of calpain I red cell activity upon its own physiological substrates in hypertensive patients, in a near-physiological environment. SETTING: LIM-23 and LIM-40 of Hospital das Clinicas of the Faculty of Medicine of USP. SAMPLE: Patients with moderate primary hypertension over 21 years of age who were given amlodipine (n:10) and captopril (n:10) for 8 weeks, plus normal controls (n:10). MAIN MEASUREMENTS: Red cell membrane proteins were incubated with and without protease inhibitors and with and without calcium chloride and underwent polyacrylamide gel electrophoresis. RESULTS: Digestion of bands 2.1 and 4.1 was observed, indicating calpain I acitivity. No statistical differences regarding bands 2.1 and 4.1 were observed before treatment, between the controls and the hypertensive patients, either in ghosts prepared without calcium or with increasing concentrations of calcium. Nor were statistical differences observed after treatment, between the controls and the patients treated with amlodipine and captopril, or between the patients before and after treatment with both drugs. CONCLUSION: The final activity of non-purified calpain I upon its own physiological substrate, which was the approach utilized in this study, may more adequately reflect what happens in red cells. Under such conditions no imbalance favoring calpain I activity increase was observed. The protective factor provided by calpastatin against calpain I activity may diminish under hypertension
Subject(s)
Humans , Adult , Calpain , Hypertension/enzymology , Erythrocyte Membrane/enzymology , Membrane Proteins/physiology , Calcium-Binding Proteins , Captopril , Case-Control Studies , Ankyrins , Amlodipine , Electrophoresis, Polyacrylamide Gel , Hypertension/drug therapy , Membrane Proteins/bloodABSTRACT
Prions have been extensively studied since they represent a new class of infectious agents in which a protein, PrPsc (prion scrapie), appears to be the sole component of the infectious particle. They are responsible for transmissible spongiform encephalopathies, which affect both humans and animals. The mechanism of disease propagation is well understood and involves the interaction of PrPsc with its cellular isoform (PrPc) and subsequently abnormal structural conversion of the latter. PrPc is a glycoprotein anchored on the cell surface by a glycosylphosphatidylinositol moiety and expressed in most cell types but mainly in neurons. Prion diseases have been associated with the accumulation of the abnormally folded protein and its neurotoxic effects; however, it is not known if PrPc loss of function is an important component. New efforts are addressing this question and trying to characterize the physiological function of PrPc. At least four different mouse strains in which the PrP gene was ablated were generated and the results regarding their phenotype are controversial. Localization of PrPc on the cell membrane makes it a potential candidate for a ligand uptake, cell adhesion and recognition molecule or a membrane signaling molecule. Recent data have shown a potential role for PrPc in the metabolism of copper and moreover that this metal stimulates PrPc endocytosis. Our group has recently demonstrated that PrPc is a high affinity laminin ligand and that this interaction mediates neuronal cell adhesion and neurite extension and maintenance. Moreover, PrPc-caveolin-1 dependent coupling seems to trigger the tyrosine kinase Fyn activation. These data provide the first evidence for PrPc involvement in signal transduction
Subject(s)
Humans , Animals , Mice , Membrane Proteins/physiology , Prion Diseases/physiopathology , PrPC Proteins/physiology , Copper/metabolism , Endocytosis , Laminin/physiology , Ligands , Membrane Proteins/genetics , Phenotype , PrPC Proteins/genetics , PrPC Proteins/isolation & purification , PrPSc Proteins/geneticsABSTRACT
Recent advances have allowed the identification and characterization of well defined vesicular subcellular organelles involved in multiple basic cellular physiological processes, with demonstrated clinical relevance. Among these, three particular subcellular organelles have received special attention based on their proven and postulated participation in the sorting and targeting of small-and large-molecular weight molecules during exocytosis and endocytosis, and in cell signaling and transduction events. These have characteristic proteinaceous coat structures that allows their classification accordingly, into what has been described as clathrin coated vesicles and COP-coated vesicles and caveolae. In this review article a brief description of clathrin-coated vesicles and COP-coated vesicles is presented. Caveolae (CAV), in turn, constitute a novel subcellular organelle that has received special attention based on its proven and postulated participation in transcytosis, potocytosis, and in cell signaling and transduction events. In this review of the literature a more extensive discussion is presented of CAV. In this context the article discusses the structural features of caveolae, its constituent protein caveolin(s), the functional aspects of this new organelle, and its postulated clinical relevance