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Malathion serves as a pivotal pesticide in agriculture and the management of the Aedes aegypti mosquito. Despite its widespread use, there is a notable absence of studies elucidating the mechanisms through which malathion may affect the female reproductive system. Consequently, the objective of this investigation was to assess whether exposing juvenile female rats to low doses of malathion during the juvenile and peripubertal periods could compromise pubertal onset, estradiol levels, and the integrity of the ovaries and uterus while also examining the underlying mechanisms of damage. To achieve this, thirty juvenile female rats were subjected to either a vehicle or malathion (10 mg/kg or 50 mg/kg) between postnatal days 22 and 60, with subsequent verification of pubertal onset. Upon completion of the exposure period, blood samples were collected for estradiol assessment. The ovaries and uterus were then examined to evaluate histological integrity, oxidative stress, and the expression of genes associated with cell proliferation, antiapoptotic responses, and endocrine pathways. Although estradiol levels and pubertal onset remained unaffected, exposure to malathion compromised the integrity and morphometry of the ovaries and uterus. This was evidenced by altered oxidative profiles and changes in the expression of genes regulating the cell cycle, anti-apoptotic processes, and endocrine pathways. Our findings underscore the role of malathion in inducing cell proliferation, promoting cell survival, and causing oxidative damage to the female reproductive system in rats exposed during peripubertal periods.

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Serum prolactin (PRL) levels exhibit a gradual rise both in male and female rats from birth to adulthood, with females consistently displaying higher levels compared to age-matched males. This pattern has traditionally been attributed to the development and maturation of endocrine and neuroendocrine networks responsible for regulating PRL synthesis and secretion. However, the effect of dopamine (DA), which acts as an inhibitory factor on lactotroph function, also increases from birth to puberty, particularly in females. Nonetheless, the secretion of PRL remains higher in females compared to males. On the other hand, the observed sex differences in serum PRL levels during early postnatal development cannot be attributed to the influence of estradiol (E2). While serum E2 levels gradually increase after birth, only after 45 days of life do the disparities in E2 levels between females and males become evident. These observations collectively suggest that neither the maturation of hypothalamic DA regulation nor the rise in E2 levels can account for the progressive and sustained elevation in serum PRL levels and the observed sexual dimorphism during postnatal development. This review highlights the importance of recent discoveries in animal models that shed light on inhibitory mechanisms in the control of PRL secretion within the pituitary gland itself, that is intrapituitary mechanisms, with a specific emphasis on the role of transforming growth factor ß1 and activins in PRL secretion.

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Serum prolactin increases from birth to adulthood in rats, being higher in females from birth. The maturation of hypothalamic/gonadal prolactin-releasing and -inhibiting factors does not explain some sex differences observed. During the first weeks of life, prolactin secretion increases, even when lactotrophs are isolated in vitro, in the absence of those controls, suggesting the participation of intra-pituitary factors in this control. The present work aimed to study the involvement of pituitary activins in the regulation of prolactin secretion during post-natal development. Sex differences were also highlighted. Female and male Sprague-Dawley rats at 11, 23 and 45postnatal days were used. Pituitary expression of activin subunits and activin receptors was maximum in p11 female pituitaries, being even higher than that observed in males. Those expressions decrease with age in females, and then the gender differences disappear at p23. Inhbb expression strongly increases at p45 in males, being the predominant subunit in this sex in adulthood. Activin inhibition of prolactin is mediated by the inhibition of Pit-1 expression. This action involves not only the canonical pSMAD pathway but also the phosphorylation of p38MAPK. At p11, almost all lactotrophs express p-p38MAPK in females, and its expression decreases with age with a concomitant increase in Pit-1. Our findings suggest that the inhibitory regulation of pituitary activins on prolactin secretion is sex specific; this regulation is more relevant in females during the first week of life and decreases with age; this intra-pituitary regulation is involved in the sex differences observed in serum prolactin levels during postnatal development.

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Malathion is an insecticide that is used to control arboviruses and agricultural pests. Adolescents that are exposed to this insecticide are the most vulnerable as they are in the critical period of postnatal sexual development. This study aimed to evaluate whether malathion damage can affect sperm function and its respective mechanisms when adolescents are exposed during postnatal sexual development. Twenty-four male Wistar rats (PND 25) were divided into three experimental groups and treated daily for 40 d: control group (saline 0.9%), 10 mg/kg (M10 group), or 50 mg/kg (M50 group) of malathion. At PND 65, the rats were anesthetized and euthanized. Testicles were collected for the evaluation of gene expression. Sperm cells from the epididymis were used for evaluation of the oxidative profile or spermatic function. Data showed that a lower dose of malathion downregulated the gene expression of androgen receptors and testosterone converter enzyme 17-ß-HSD in the testis. The acrosomal integrity of sperm cells was compromised in the M50 group, but not the M10 group. The mitochondrial activity was not impaired by exposure. Finally, although no alterations in malondialdehyde and glutathione levels were observed, malathion, at both doses, increased antioxidant enzyme catalase activity and, at a higher dose, superoxide dismutase activity. The present study showed that low doses of malathion considered to be inoffensive are capable of impairing sperm quality and function through the downregulation of testicular genic expression of AR enzyme 17-ß-HSD and can damage the spermatic antioxidant profile during critical periods of development.

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Nutrition is an environmental factor able to activate physiological interactions between fetus and mother. Maternal protein restriction is able to alter sperm parameters associated with epididymal functions. Since correct development and functioning of the epididymides are fundamental for mammalian reproductive success, this study investigated the effects of maternal protein restriction on epididymal morphology and morphometry in rat offspring as well as on the expression of Src, Cldn-1, AR, ER, aromatase p450, and 5α-reductase in different stages of postnatal epididymal development. For this purpose, pregnant females were allocated to normal-protein (NP-17% protein) and low-protein (LP-6% protein) groups that received specific diets during gestation and lactation. After weaning, male offspring was provided only normal-protein diet until the ages of 21, 44, and 120 days, when they were euthanized and their epididymides collected. Maternal protein restriction decreased genital organs weight as well as crown-rump length and anogenital distance at all ages. Although the low-protein diet did not change the integrity of the epididymal epithelium, we observed decreases in tubular diameter, epithelial height and luminal diameter of the epididymal duct in 21-day-old LP animals. The maternal low-protein diet changed AR, ERα, ERß, Src 416, and Src 527 expression in offspring epididymides in an age-dependent manner. Finally, maternal protein restriction increased Cldn-1 expression throughout the epididymides at all analyzed ages. Although some of these changes did not remain until adulthood, the insufficient supply of proteins in early life altered the structure and functioning of the epididymis in important periods of postnatal development.

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Little is currently known about possible developmental changes in myocardial Na+ handling, which may have impact on cell excitability and Ca2+ content. Resting intracellular Na+ concentration ([Na+ ]i ), measured in freshly isolated rat ventricular myocytes with CoroNa green, was not significantly different in neonates (3-5 days old) and adults, but electrical stimulation caused marked [Na+ ]i rise only in neonates. Inhibition of L-type Ca2+ current by CdCl2 abolished not only systolic Ca2+ transients, but also activity-dependent intracellular Na+ accumulation in immature cells. This indicates that the main Na+ influx pathway during activity is the Na+ /Ca2+ exchanger, rather than voltage-dependent Na+ current (INa ), which was not affected by CdCl2 . In immature myocytes, INa density was two-fold greater, inactivation was faster, and the current peak occurred at less negative transmembrane potential (Em ) than in adults. Na+ channel steady-state activation and inactivation curves in neonates showed a rightward shift, which should increase channel availability at diastolic Em , but also require greater depolarization for excitation, which was observed experimentally and reproduced in computer simulations. Ventricular mRNA levels of Nav 1.1, Nav 1.4 and Nav 1.5 pore-forming isoforms were greater in neonate ventricles, while a decrease was seen for the ß1 subunit. Both molecular and biophysical changes in the channel profile may contribute to the differences in INa density and voltage-dependence, and also to the less negative threshold Em , in neonates compared to adults. The apparently lower excitability in immature ventricle may confer protection against the development of spontaneous activity in this tissue. KEY POINTS: Previous studies showed that myocardial preparations from immature rats are less sensitive to electrical field stimulation than adult preparations. Freshly isolated ventricular myocytes from neonatal rats showed lower excitability than adult cells, e.g. less negative threshold membrane potential and greater membrane depolarization required for action potential triggering. In addition to differences in mRNA levels for Na+ channel isoforms and greater Na+ current (INa ) density, Na+ channel voltage-dependence was shifted to the right in immature myocytes, which seems to be sufficient to decrease excitability, according to computer simulations. Only in neonatal myocytes did cyclic activity promote marked cytosolic Na+ accumulation, which was prevented by abolition of systolic Ca2+ transients by blockade of Ca2+ currents. Developmental changes in INa may account for the difference in action potential initiation parameters, but not for cytosolic Na+ accumulation, which seems to be due mainly to Na+ /Ca2+ exchanger-mediated Na+ influx.

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SUMMARY: Considering that the submandibular gland (SMG) of postnatal mice performs active cell proliferation, apoptosis and differentiation which are regulated by proto-oncogene products in cancerous cells, the expression and localization of a proto-oncogene product HER (human epidermal growth factor receptor)-2 was examined in SMG of postnatal mice. In Western blot analysis, the expression for HER-2 was high until pre-puberty, and it decreased from puberty to young adult stages with male SMG more dominant. In immunohistochemistry, the immunoreactivity was positive in acinar and ductal cells of newborn SMG with distinct localization at the intercellular apposition sites. The immunoreactivity in acinar cells progressively decreased to negligible levels by pre-pubertal stage, while it remained positive in most ductal cells throughout the postnatal time-course. The immunoreactivity in cells of terminal tubules and intercalated ducts, both of which have a high potential to produce cells, were seen at levels similar to those of more proximal ducts, while the immunoreactivity in ductal basal cells was significantly high, but the granular convoluted tubule cells were seen at negligible levels in male and at faint levels in female. In immuno-electron microscopy of excretory ducts, the immunoreactivity was dominantly localized on the basal infolding membranes as well as vesicles and vacuoles of various sizes, but rarely in Golgi apparatus and mitochondria. The immunoreactivity without association to any membranous structures were also seen, though not numerous. The relation of expression levels of HER-2 in various portions of normal SMG to those in their cancerous ones is briefly discussed.

RESUMEN: Considerando que la glándula submandibular (GSM) de ratones postnatales realiza la proliferación celular activa, apoptosis y diferenciación que están reguladas por productos protooncogénicos en células cancerosas, la expresión y localización de un producto protooncogénico HER (receptor del factor de crecimiento epidérmico humano) - 2 se examinó en GSM de estos ratones. En el análisis de Western blot, la expresión de HER-2 fue alta hasta la prepubertad, y disminuyó desde la pubertad hasta las etapas de adultos jóvenes con GSM macho más dominante. En inmunohistoquímica, la inmunorreactividad fue positiva en las células acinares y ductales de GSM de recién nacido con una localización distinta en los sitios de aposición intercelular. La inmunorreactividad en las células acinares disminuyó progresivamente a niveles insignificantes en la etapa prepuberal, mientras que permaneció positiva en la mayoría de las células ductales durante el transcurso del tiempo posnatal. La inmunorreactividad en las células de los túbulos terminales y los conductos intercalados, los cuales tienen un alto potencial para producir células, se obser- vó a niveles similares a los de los conductos más proximales, mientras que la inmunorreactividad en las células basales ductales fue significativamente alta, pero en el túbulo contorneado granular las células se observaron en niveles insignificantes en los machos y en niveles débiles en las hembras. En la microscopía inmunoelectrónica de los conductos excretores, la inmunorreactividad se localizó de manera predominante en las membranas de pliegues basales, así como en vesículas y vacuolas de varios tamaños, pero raramente en el aparato de Golgi y en las mitocondrias. También se observó la inmunorreactividad sin asociación a ninguna estructura membranosa, aunque no numerosa. Se discute brevemente la relación de los niveles de expresión de HER-2 en varias porciones de GSM normal con aquellos en sus cancerosos.

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Progesterone is involved in dendritogenesis, synaptogenesis and maturation of cerebellar Purkinge cells, major sites of steroid synthesis in the brain. To study a possible time-relationship between myelination, neurosteroidogenesis and steroid receptors during development of the postnatal mouse cerebellum, we determined at postnatal days 5 (P5),18 (P18) and 35 (P35) the expression of myelin basic protein (MBP), components of the steroidogenic pathway, levels of endogenous steroids and progesterone's classical and non-classical receptors. In parallel with myelin increased expression during development, P18 and P35 mice showed higher levels of cerebellar progesterone and its reduced derivatives, higher expression of steroidogenic acute regulatory protein (StAR) mRNA, cholesterol side chain cleavage enzyme (P450scc) and 5α-reductase mRNA vs. P5 mice. Other steroids such as corticosterone and its reduced derivatives and 3ß-androstanodiol (ADIOL) showed a peak increase at P18 compared to P5. Progesterone membrane receptors and binding proteins (PGRMC1, mPRα, mPRß, mPRγ, and Sigma1 receptors) mRNAs levels increased during development while that of classical progesterone receptors (PR) remained invariable. PRKO mice showed similar MBP levels than wild type. Thus, these data suggests that progesterone and its neuroactive metabolites may play a role in postnatal cerebellar myelination.

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Intrauterine growth restriction (IUGR) is a serious condition of multifactorial origin, mainly caused by maternal malnutrition, multiple gestation associated with nutrient competition, abuse of nocive substances and infections. The diagnosis of such syndrome is complex, as its own manifestations can mask its occurrence, requiring a thorough assessment of body weight and size. Moreover, it is not responsive to any kind of treatment. There is evidence that IUGR may predispose the individual to several pathologies, such as diabetes, hypertension and metabolic syndrome in adulthood, and it has also been linked to thrifty phenotype hypothesis. Thus, a healthy lifestyle is needed to better prevent those pathologies. Given the world high prevalence and importance of IUGR, mainly in developing countries, this review is focused on discussing how different animal models contribute to the biological screening and diagnosis of this condition.