Pathophysiological aspects of neonatal anoxia and temporal expression of S100ß in different brain regions.

The aim of this study was to investigate the temporal variations of S100ß in the hippocampus, cerebellum and cerebral cortex of neonatal rats (Wistar strain) under anoxic conditions. Real-time PCR and western blotting techniques were used for gene expression and protein analysis. Animals were divided into two groups, a control group and an anoxic group, and further separated at different time points for analysis. After anoxia, S100ß gene expression showed a significant peak in the hippocampus and cerebellum after 2 h, followed by a decline compared to the control group at other time points. The increased gene expression in these regions was also accompanied by an increase in S100ß protein levels in the anoxia group, observable 4 h after injury. In contrast, S100ß mRNA content in the cerebral cortex never exceeded control values at any time point. Similarly, the protein content of S100ß in the cerebral cortex did not show statistically significant differences compared to control animals at any assessment time point. These results suggest that the production profile of S100ß differs by brain region and developmental stage. The observed differences in vulnerability between the hippocampus, cerebellum and cerebral cortex may be attributed to their distinct developmental periods. The hippocampus and cerebellum, which develop earlier than the cerebral cortex, showed more pronounced effects in response to anoxia, which is supported by the gene expression and protein content in this study. This result reveals the brain region-dependent nature of S100ß as a biomarker of brain injury.

Identificação, caracterização molecular, mapeamento e colocalização do receptor 1 do hormônio concentrador de melanina em mama de ratas lactantes e não-lactantes / Identification, Molecular Characterization, Mapping and Colocalization of Melanin-concentrating Hormone Receptor 1 in Mammary Gland of Lactating and no-lactating rat

Introdução: O Hormônio Concentrador de Melanina (MCH) apresenta a maior expressão de seu RNA mensageiro (RNAm) no período final da lactação (19º dia) em áreas inusitadas no sistema nervoso central (SNC) de roedor, como a área pré-óptica medial (MPOA). Após esse período não encontramos mais o RNAm e a proteína na MPOA, e há descrições de flutuações no nível sérico do MCH, o que sugere uma possível função do MCH no período final da lactação. Foi descrita a presença de MCH em diversos órgãos como: pulmão, tiróide, baço, trato gastrintestinal e em destaque no SNC que é responsável pela expressão de 98% do peptídeo. Foram descritos dois receptores: MCHR1 e MCHR2. No entanto, não há descrição da presença do MCHR1 em tecido mamário, embora evidências sustentem uma possível relação do MCH e o período de lactação. Objetivos: 1) investigar a presença do MCHR1 em tecido mamário de ratas lactantes e ratas em diestro; 2) seqüenciar o receptor encontrado em tecido mamário para compará-lo com o receptor expresso no SNC e, 3) estabelecer o tipo celular reativo ao MCHR1 em tecido mamário de ratas lactantes e ratas em diestro. Material e Métodos: tecido mamário e do SNC de ratas Long-Evans lactantes e não-lactantes foram submetidos às técnicas de hibridização in situ, RT-PCR e RT-qPCR (com tecidos controles periféricos). Cortes do SNC de ratas Long-Evans (19º dia de lactação) foram submetidos à técnica RNAscope. Sequenciamento gênico foi realizado em amostras de tecidos mamários e hipocampo de rata lactante. Tecidos mamários de ratas lactantes foram submetidos às técnicas de imuno-histoquímica (fosfatase alcalina e imunofluorescência indireta) e western blot. Resultados: 1) pela técnica de hibridização in situ pudemos descrever a presença do Mchr1 em tecido mamário e do SNC (12º, 19º dias de lactação e diestro); em tecido mamário de ratas lactantes o Mchr1 se encontra em células na epiderme, derme, estroma e parênquima, e em ratas não-lactantes apenas na epiderme e derme... (AU)

Introduction: The melanin-concentrating hormone (MCH) mRNA shows the higher expression during lactation final period (around 19th day) in novel sites of central nervous system (CNS) of rodents, such as the ventral part of medial preoptic area (MPOAv). Thereafter, mRNA and protein are not found in the MPOAv and, there are seric alterations of MCH suggesting a possible function in the lactation final period. MCH is present peripheral tissues: lung, thyroid, spleen, gastrointestinal tract and the CNS is responsible for 98% of expression. The MCH has two receptors: MCHR1 and MCHR2. However, there are no descriptions of MCHR1 expression in the mammary glands of non-lactating or lactating dams albeit evidence support a possible relationship between MCH and lactation. Objective: 1) investigate the presence of MCHR1 in mammary tissue, 2) sequencing the receptor present in the mammary tissue of female rats to verify the homology to compare with central Mchr1 and 3) identify the cellular type that express the mRNA of Mchr1 and, the protein MCHR1 and. Material and Methods: mammary gland and brain tissue of Long-Evans rats (lactating and no-lactating) were submitted to in situ hibridization, RT-PCR and qRT-PCR (with peripheral control tissues). Sample of CNS Long-Evans rats (19th day lactation) was submitted to RNAscope technique. Sequencing was performed in mammary gland tissue and hippocampus of lactating rat. Mammary gland tissue of lactating rats was submitted to immunohistochemistry (alcaline phosphatase and indirect immunofluorescence) and western blot. Results: 1) Mchr1 was detected by in situ hibridization in mammary gland and CNS tissue (12th, 19th days of lactation and diestrus phase). In mammary gland of lactating rats Mchr1 was found in cells of epidermis, dermis, stroma and parenchyma, and in no-lactating rats only in the epidermis and dermis... (AU)