Vitamin A and Daucus carota root extract mitigate STZ-induced diabetic retinal degeneration in Wistar albino rats by modulating neurotransmission and downregulation of apoptotic pathways.

The objective of our study was to explore the deleterious effects of diabetes on the visual functions of the retina and to address whether the administration of vitamin A and carrot root extract (CE) confer retinal protection in hyperglycemic rats via modulation of oxidative stress, biochemical alternations, and retinal neurotransmission. Fifty male Wistar albino rats weighing 180 ± 12.41 g were randomized into five groups (n = 10): controls, diabetic group (injected with 40 mg/kg dissolved in 0.1 sodium citrate buffer), diabetic group treated with vitamin A (2,500 IU/kg, low dose), diabetic group treated with vitamin (5,000 IU/kg, high dose), and diabetic groups administered CE (200 mg/kg/every other day). Our findings showed that, compared to controls, diabetic rats showed a significant decrease in their retinal thickness, increased apoptotic ganglion cells, and a noticeable degeneration of their synaptic layers. The inner retina displayed increased activity of neovascularization; however, the outer retina exhibited vacuolar degeneration of the photoreceptor cell layer. Our biochemical assessments showed reduced levels of CAT, SOD, and GST along with increased lipid peroxidation. Concurrently, cellular angiogenic and stress markers were significantly elevated associated with increased apoptotic activities as evidenced by increased expressions of annexin-V and PARP. Furthermore, the neurotransmitter content of the retina was altered in diabetic rats compared to controls and diabetic-treated groups. Paradoxically, vitamin A and CE supplementation attenuate these retinal insults in diabetic animals and normalized aforementioned assayed parameters; evidencing that both treatments exerted ameliorative impacts and restored visual functions by diminishing oxidative stress and neuronal degeneration. PRACTICAL APPLICATIONS: Diabetes is a complex disease that involves various physiological perturbations especially visual functions. In our study, we showed that vitamin A and carrot root extract (CE) confer remarkable protection against retinal degeneration in STZ-induced diabetic rats. Our findings showed that the chemical and phytochemical ingredients of the vitamin A and CE substantially attenuated the histopathological changes, oxidative stress, inflammatory reactions, and cellular death in diabetic rats. These favorable changes are attributable to the high content of retinoic acid, carotenoids, and phenolic compounds that effectively regulates the production of visual pigments, increases the antioxidant defense system, and diminishes the pro-inflammatory and apoptotic pathways. Thus, the nutritional values of vitamin A and CE represent promising therapeutic choices to mitigate the retinal-induced diabetic insults.

Garlic oil as a fight against histological and oxidative stress abnormalities in Wistar rats after oral inoculation of Anisakis spp. Type II (L3) (Nematoda) / [O uso do óleo de alho na luta contra anormalidades histológicas e de estresse oxidativo em ratos Winstar após inoculação oral de Anisakis spp. Tipo II (L3) (Nematoda)]

The consumption of inadequately thermally treated fish is a public health risk due to the possible propagation of Anisakis larvae and their antigenic proteins, the causative agent of the zoonotic disease anisakidosis. The present study demonstrated the physiological and histopathological changes that accompanied an oral inoculation of crude extracts from fresh and thermally treated Anisakis Type II (L3) in Wistar albino rats. Nematode worms were isolated from the marine fish Dicentrarchus labrax. They were examined and taxonomically identified using light and scanning electron microscopy. The study was performed in 6 rat groups: a control group (I), a garlic oil (GO) inoculated group (II), a fresh L3 inoculated group (III), a thermally treated L3 inoculated group (IV), a fresh L3 + GO inoculated group (V), and a thermally treated L3 + GO inoculated group (VI). It was observed that rats inoculated with fresh and thermally treated L3 crude extracts showed abnormal oxidative stress markers associated with the destruction of normal architecture of spleen and thymus. GO produced a protective effect in rat groups inoculated with L3 extracts + GO administration via the amelioration of oxidative stress markers, which was confirmed by the marked normal structure of the organs' histology. Cooking of L3 infected fish induced severe physiological and histopathological alterations compared to uncooked infected fish. The administration of garlic before and after fish eating is recommended to avoid the dangerous effect of anisakids, even if they are cooked.(AU)

O consumo de peixes tratados termicamente de forma inadequada é um risco à saúde pública devido à possível propagação das larvas de Anisakis e suas proteínas antigênicas, o agente causador da doença zoonótica anisakidose. O presente estudo demonstrou as alterações fisiológicas e histopatológicas que acompanharam a inoculação oral de extratos brutos de Anisakis Tipo II (L3) frescos e termicamente tratados em ratos Wistar albinos. Vermes nematoides foram isolados do peixe marinho Dicentrarchus labrax e foram examinados e identificados taxonomicamente usando microscopia óptica e eletrônica de varredura. O estudo foi realizado em 6 grupos de ratos: grupo controle (I), grupo inoculado com óleo de alho (GO) (II), grupo inoculado com L3 fresco (III), grupo inoculado com L3 tratado termicamente (IV), grupo inoculado com L3 + GO fresco (V), e grupo inoculado com L3 + GO tratado termicamente (VI). Observou-se que ratos inoculados com extrato bruto L3 fresco e tratado termicamente mostraram marcadores de estresse oxidativo anormais associados à destruição da estrutura normal do baço e do timo. GO produziu um efeito protetor em grupos de ratos inoculados com extrato L3 + administração de GO através da melhoria dos marcadores de estresse oxidativo, que foi confirmada pela marcante estrutura normal da histologia dos órgãos. O cozimento de peixes infectados com L3 induziu alterações fisiológicas e histopatológicas graves quando comparado com peixes infectados não cozidos. Recomenda-se a administração de alho antes e depois da ingestão do peixe para evitar o efeito perigoso dos anisakídeos, mesmo se cozidos.(AU)

Vitamin E and selenium administration synergistically mitigates ivermectin and doramectin-induced testicular dysfunction in male Wistar albino rats.

Avermectins are broad-spectrum antiparasitic drugs in veterinary and human medication. The current study aimed to examine the toxic effects of ivermectin (IVM) and doramectin (DRM), with or without co-treatment of vitamin E (Vit.E) and selenium (Se) on apoptosis, oxidative stress and male fertility in Wistar rats. Twenty five adult male animals were divided into five groups; G1; was control (CTL) received saline, G2; IVM (0.2 mg/kg b.w), G3; IVM plus Vit.E/Se (80/1.6 mg/kg b.w, respectively), G4; DRM (0.2 mg/kg b.w), and G5; DRM plus Vit.E/Se. Both IVM and DRM were given by subcutaneous (s.c) injections while Vit.E/Se was orally given. All treatments were administered once weekly for four consecutive weeks. By 24 h after the last treatment, the animals were sacrificed. Blood and tissue samples were collected for hematology, serobiochemistry, histopathology, and molecular assays for hepatic/ renal toxicities, oxidative stress, cell viability and fertility parameters. Apoptosis of the hepatic cells obtained from the treated rats was assayed by detection of annexin-V using the flow cytometric assay (FCA). The proliferating cellular nuclear antigen (PCNA) and DNA fragmentation in the treated rats' testicular tissues were also assayed. Moreover, the direct effects of IVM or DRM with or without concomitant administration of Vit.E/Se on testicular cells isolated from adult rat were also performed in vitro. Apoptosis of those cultured testicular cells in response to the different treatments was assayed by detection of the inhibition-concentration fifty (IC50) using the SRB method, and evaluating the viable versus apoptotic cells microscopically after staining with acridine orange-ethidium bromide (AO/EB). In conclusion, both avermectins induced apoptosis in the living and cultured cells, while those antioxidants; Vit.E and Se, reduced the oxidative stress and cytotoxicity both in vivo and in vitro, either. Furthermore, the reprotoxicity and reduced male fertility were seriously evoked by IVM, but not DRM with dramatic ameliorative effect of Vit.E/Se if concomitantly administered. Avermectins, especially ivermectin, should be given according to the dose recommended by the manufacturer company and repeated dosages should be given with Vit.E/Se.

Effect of both selenium and biosynthesized nanoselenium particles on cadmium-induced neurotoxicity in albino rats.

Because cadmium (Cd) is not naturally degradable by ecosystems, it interferes with many types of food chains. Cd accumulates in the kidney, liver and in the nervous tissues, especially the brain. The neurotoxicity of Cd is very high, as it alters the integrity, and increases the permeability, of the blood-brain barrier. Cd penetrates and accumulates in neurons in the brains of rats. This study reveals that Cd decreases antioxidant enzymes and increases oxidative stress in the brain. In addition, Cd increases lipid peroxidation of brain tissues. Cd increases the expression of the Cu/Zn superoxide dismutase gene. It also affects cholinergic, glutamatergic, gamma-Aminobutyric acid (GABAergic), dopamine, serotonin and acetylcholine neurotransmitters in brain tissue. Consequently, Cd increases the formation of amyloid ß, a neurotoxic index, and induces apoptosis by changing the quality and the quantity of Bcl-2, Bax and p53 proteins. In conclusion, both selenium and nanoselenium show potential antioxidant activity and promote recovery from the neurotoxic action of Cd.

Calcitriol and Punica Granatum Extract Concomitantly Attenuate Cardiomyopathy of Diabetic Mother Rats and Their Neonates via Activation of Raf/MEK/ERK Signalling and Mitigation of Apoptotic Pathways.

We investigated the detrimental effects of diabetes on myocardium of pregestational streptozotocin (STZ)-diabetic mother rats and their neonates via evaluations of oxidative redox, inflammatory and apoptotic pathways, also aiming to characterize whether calcitriol and/or pomegranate peel extract confer myocardial protection in hyperglycaemic dams and their foetuses via modulation of the Raf/MEK/ERK cascade. Sixty Sprague-Dawley female rats were randomized into five groups (N = 12): control, diabetic, diabetic treated with calcitriol and/or pomegranate peel extract (PPE), and mated with non-diabetic healthy males. After confirmation of pregnancy, treatments were kept until gestational day (E-18). Serum and cardiac tissues of mothers and foetuses were collected and processed for biochemical, histopathological, and molecular assessments. We observed that, compared to the control, diabetic mothers showed dramatically increased hyperglycaemia and hyperlipidaemia associated with decreased myocardial functions and disrupted maternal performance. Also, diabetic mothers and their neonates exhibited elevated levels of myocardial injury (troponin I, endothelin 1, creatine kinase-MB, lactate dehydrogenase), with increased pro-inflammatory cytokines (interleukin 1, interleukin 1ß, transforming growth factor ß) and oxidative redox. Concurrently, the MAPK pathway was significantly down-regulated with increased myocardial apoptotic activity. Furthermore, mRNA expression of angiogenic and fibrotic markers was significantly increased. Paradoxically, calcitriol and/or pomegranate peel extract alleviated these diabetic myocardial insults and normalized the aforementioned assayed parameters. Our findings hypothesized that calcitriol and/or pomegranate peel extract exerted cardioameliorative impacts due to their unique anti-oxidative and anti-inflammatory properties, and thus may be a promising treatment that directly targets the secondary myocardial complications of diabetes in dams and their offspring.