Effect of Morindae Officinalis Radix Processed with Different Proportions of Glycyrrhizae Radix et Rhizoma on Improvement of Renal Function and HPG Axis of Kidney Yang Deficiency Model Rats Induced by Adenine / 中国实验方剂学杂志

ObjectiveTo explain the scientific connotation of Morindae Officinalis Radix （MOR） processed by Glycyrrhizae Radix et Rhizoma （Gly） by comparing the effect of raw products of MOR and processed products of MOR with different proportions of Gly （GMOs） on the improvement of renal function and hypothalamic-pituitary-gonadal （HPG） axis， the protein expression of Wnt/β-catenin and transforming growth factor-β1 （TGF-β1）/Smad signal pathways in kidney Yang deficiency model rats induced by adenine. MethodGMOs were prepared according to method under MOR in 2020 edition of Chinese Pharmacopoeia. Rat model of kidney Yang deficiency was established by intragastrical administration of adenine， levels of follicle stimulating hormone （FSH）， luteinizing hormone （LH）， estradiol （E2） and testosterone （T） were measured by enzyme-linked immunosorbent assay （ELISA）. Levels of urea nitrogen （BUN） and serum creatinine （SCr） were measured by spectrophotometry， hematoxylin-eosin （HE） staining was used to evaluate the pathological changes of kidney， testis and epididymis. Immunohistochemistry （IHC） was used to analyze the protein expression of E-cadherin， α-smooth muscle actin （α-SMA）， Wnt2b， β-catenin， Smad1 and Smad4. ResultMOR processed with 100∶6 and 100∶12 proportions of Gly （short for GMO/100∶6 and GMO/100∶12） had the most obvious improvement on the body posture of kidney Yang deficiency model rats. GMO/100∶12 had the best effect on reducing the levels of BUN， SCr， FSH， LH and the ratio of E2/T. GMO/100∶6 and GMO/100∶12 had the best effect on regulating the protein expression of E-cadherin， α-SMA， Wnt2b， β-catenin， Smad1 and Smad4. ConclusionGMO/100∶6 and GMO/100∶12 have the a good effect on the improvement of renal function and HPG axis in kidney Yang deficiency model rats induced by adenine， which is related with the fact that they can regulate Wnt/β-catenin pathway in renal and testicular tissue and TGF-β1/Smads pathway in testicular tissue.

Effect of Morindae Officinalis Radix Processed with Different Proportions of Glycyrrhizae Radix et Rhizoma on Improvement of Renal Function and HPG Axis of Kidney Yang Deficiency Model Rats Induced by Adenine / 中国实验方剂学杂志

ObjectiveTo explain the scientific connotation of Morindae Officinalis Radix （MOR） processed by Glycyrrhizae Radix et Rhizoma （Gly） by comparing the effect of raw products of MOR and processed products of MOR with different proportions of Gly （GMOs） on the improvement of renal function and hypothalamic-pituitary-gonadal （HPG） axis， the protein expression of Wnt/β-catenin and transforming growth factor-β1 （TGF-β1）/Smad signal pathways in kidney Yang deficiency model rats induced by adenine. MethodGMOs were prepared according to method under MOR in 2020 edition of Chinese Pharmacopoeia. Rat model of kidney Yang deficiency was established by intragastrical administration of adenine， levels of follicle stimulating hormone （FSH）， luteinizing hormone （LH）， estradiol （E2） and testosterone （T） were measured by enzyme-linked immunosorbent assay （ELISA）. Levels of urea nitrogen （BUN） and serum creatinine （SCr） were measured by spectrophotometry， hematoxylin-eosin （HE） staining was used to evaluate the pathological changes of kidney， testis and epididymis. Immunohistochemistry （IHC） was used to analyze the protein expression of E-cadherin， α-smooth muscle actin （α-SMA）， Wnt2b， β-catenin， Smad1 and Smad4. ResultMOR processed with 100∶6 and 100∶12 proportions of Gly （short for GMO/100∶6 and GMO/100∶12） had the most obvious improvement on the body posture of kidney Yang deficiency model rats. GMO/100∶12 had the best effect on reducing the levels of BUN， SCr， FSH， LH and the ratio of E2/T. GMO/100∶6 and GMO/100∶12 had the best effect on regulating the protein expression of E-cadherin， α-SMA， Wnt2b， β-catenin， Smad1 and Smad4. ConclusionGMO/100∶6 and GMO/100∶12 have the a good effect on the improvement of renal function and HPG axis in kidney Yang deficiency model rats induced by adenine， which is related with the fact that they can regulate Wnt/β-catenin pathway in renal and testicular tissue and TGF-β1/Smads pathway in testicular tissue.

Relation between testosterone, cortisol and aggressive behavior in humans: a systematic review / Relação entre testosterona, cortisol e comportamento agressivo em humanos: uma revisão sistemática / Relación entre testosterona, cortisol y comportamiento agresivo en humanos: una revisión sistemática

Aggression is an evolutionary behavior as it has a role in survival, increasing one's access to food, shelter, status and reproduction. Testosterone and Cortisol are hormones often linked to aggressive behavior. We gathered and organized data from the last five years on the relation among Testosterone, Cortisol and aggression, while assessing the methods used by those scientific papers. A systematic review was made according to PRISMA guidelines. The search for indexed articles was performed in January 2019 using the keywords aggress* AND Testosterone AND Cortisol in three databases: Web of Science, SCOPUS and PsycInfo. The specific role of Testosterone and Cortisol in aggressive behavior is not unanimous. However, most articles found either an increase in Testosterone or a decrease in Cortisol associated with this behavior. There is the need for standardizing methods of triggering and assessing aggressive behavior, taking into account the assessment of social desirability and its impacts.

Agressividade é um comportamento evolutivo, tendo um papel na sobrevivência ao aumentar o acesso à comida, abrigo, status social e reprodução. A testosterona e o cortisol são hormônios frequentemente associados a comportamentos agressivos. Este estudo reúne e organiza dados dos últimos cinco anos sobre a relação entre testosterona, cortisol e agressividade, avaliando também os métodos utilizados pelos artigos. Uma revisão sistemática foi conduzida segundo as diretrizes do PRISMA. Uma pesquisa eletrônica de artigos foi realizada em janeiro de 2019, usando as palavras-chave agress* AND Testosterone AND Cortisol em três bancos de dados: Web of Science, SCOPUS e PsycInfo. O papel desses hormônios no comportamento agressivo não é unânime, porém a maioria dos artigos incluídos encontrou um aumento na testosterona ou uma diminuição no cortisol, associados a esse comportamento. Há a necessidade de padronizar os métodos de induzir e de avaliar agressividade, levando em conta a desejabilidade social e seus impactos.

La agresividad es un comportamiento evolutivo, por desempeñar papel en la supervivencia, aumentando el acceso a comida, refugio, estatus social y reproducción. La testosterona y el cortisol son hormonas frecuentemente relacionadas con el comportamiento agresivo. Este estudio reúne y organiza datos de los últimos cinco años sobre la relación entre testosterona, cortisol y agresividad, junto a los métodos de evaluación utilizados por los artículos científicos. Se realizó una revisión sistemática de acuerdo con las directrices PRISMA. La búsqueda electrónica de artículos indexados fue realizada enero de 2019, utilizándose de las palabras clave aggress* AND Testosterone AND Cortisol en tres bases de datos: Web of Science, SCOPUS y PsycInfo. El papel de esas hormonas en el comportamiento agresivo no es unánime, aunque la mayoría de los artículos incluídos hayan hallado aumento de testosterona o disminución en cortisol, asociados a ese comportamiento. Se necesita la estandarización de los métodos de inducción y evaluación de la agresividad, teniendo en cuenta la deseabilidad social y sus impactos.

Quercetin Inhibits ROS-p53-Bax-caspase-3 axis of apoptosis and augments gonadotropin and testicular hormones in chronic unpredictable stress-Induced testis injury / La quercetina inhibe el eje de apoptosis ROS-p53-Bax-caspasa-3 y aumenta la gonadotropina y las hormonas testiculares en la lesión testicular inducida por estrés crónico e impredecible

SUMMARY: A large body of evidence supports the protective role of the flavonol antioxidant compound quercetin in mammals. We tested the hypothesis that quercetin can protect against the hypothalamus-pituitary-gonadal (HPG) axis defect like a reduction in gonadotropins and testicular hormones and abnormal semen analysis induced by chronic unpredictable stress (CUS), possibly via the downregulation of oxidative stress (ROS) and p53-Bax-caspase-3 pathways. Rats were either exposed to a variety of unpredictable stressors daily before being sacrificed after 3 weeks (model group) or were treated with quercetin (50 mg/kg body weight/day) at the same time the CUS were induced (treated group). Harvested testicular tissues were stained with basic histological staining, and testis homogenates were assayed for the tumor suppressor p53, apoptosis regulator Bax, B-cell lymphoma 2 (Bcl-2), caspase-3, malondialdehyde (MDA), glutathione peroxidase (GPx), and superoxide dismutase (SOD). In addition, harvested epididymis tissues were used to assess semen analysis, and blood samples were assayed for the testicular hormone testosterone, the adrenal cortex hormone corticosterone, and the anterior pituitary gonadotropins, follicular stimulating hormone (FSH) and luteinizing hormone (LH). CUS induced profound testicular damage and significantly (p<0.05) induced p53, Bax, caspase-3, MDA, and corticosterone, which were significantly (p<0.05) inhibited by quercetin except corticosterone. Whereas, quercetin significantly (p<0.05) increased FSH, LH, testosterone, Bcl-2, GPx, and SOD levels that were inhibited by CUS. In addition, CUS induced oligozoospermia, asthenozoospermia, and teratozoospermia, which were significantly (p<0.05) protected by quercetin. Thus, Quercetin protects against CUS-induced HPG defects in rats, which is associated with the inhibition of ROS-p53-Bax-caspase-3 axis.

RESUMEN: El papel protector del compuesto antioxidante flavonol quercetina en los mamíferos ha sido ampliamente reportado. Probamos la hipótesis que la quercetina puede proteger contra el defecto del eje hipotálamo-hipofisiario- gonadal (HHG) como una reducción de gonadotropinas y hormonas testiculares y análisis de semen anormal inducido por estrés crónico impredecible (ECI), posiblemente a través de la regulación reducida del estrés oxidativo (REO) y las vías p53- Bax-caspasa-3. Las ratas fueron expuestas a una variedad de fac- tores estresantes impredecibles diariamente antes de ser sacrificadas después de 3 semanas (grupo modelo) o fueron tratadas con quercetina (50 mg / kg de peso corporal / día) al mismo tiempo que se indujo la ECI (grupo tratado). Los tejidos testiculares fueron teñidos con tinción histológica básica y los homogeneizados de testículo se analizaron para determinar el supresor de tumores p53, el regulador de apoptosis Bax, el linfoma de células B 2 (Bcl-2), la caspasa-3, el malondialdehído (MDA), la glutatión peroxidasa (GPx) y superóxido dismutasa (SOD). Además, se utilizaron tejidos del epidídimo recolectados para evaluar el análisis de semen y se analizaron muestras de sangre para determinar la hormona testicular testosterona, la hormona corticosterona de la corteza suprarrenal y las gonadotropinas de la hipófisis anterior, la hormona estimulante folicular (FSH) y la hormona luteinizante (LH). El ECI indujo daño testicular importante e indujo significativamente niveles de (p <0,05) p53, Bax, caspasa-3, MDA y corticosterona, que fueron inhibidos (p <0,05) por la quercetina. La quercetina aumentó significativamente (p <0,05) los niveles de FSH, LH, testosterona, Bcl-2, GPx y SOD que fueron inhibidos por ECI. Además, ECI indujo oligozoospermia, astenozoospermia y teratozoospermia, protegidos de manera significativa (p <0,05) por la quercetina. Por lo tanto, la quercetina protege contra los defectos de HHG inducidos por ECI en ratas, lo que está asociado con la inhibición del eje ROS-p53-Bax-caspasa-3.

Study on Therapeutic Effect and Related Mechanism of Fuyou Granule on Precocious Puberty in SD Female Rats / 中国实验方剂学杂志

Objective:To study the effect and related mechanism of Fuyou granule on danazol-induced precocious puberty model in rats. Method:Totally 21 cages of SD female rats were randomly divided into normal group， model group， Leuprorelin（0.1 g·kg^-1） and Fuyou mixture group（37.9 g·kg^-1）， and high-dose， mid-dose and low dose Fuyou granule<italic> </italic>groups（17.0，8.5，4.3 g·kg^-1）. Rats at 5 days of age were given a single subcutaneous injection of 300 μg danazol to establish the precocious puberty model. After 10 days of modeling， drug intervention was started. Vaginal opening was examined at the age of 20 days， and the gonadal development was observed by hematoxylin-eosin （HE） staining. The levels of serum luteinizing hormone （LH）， follicle-stimulating hormone （FSH） and estradiol （E₂） were determined by radioimmunoassay. The mRNA expressions of hypothalamic gonadotropin releasing hormone （GnRH）， Kiss-1， G protein-coupled receptor 54 （GPR54） were detected by Real-time fluorescent quantitative polymerase chain reaction （Real-time PCR）， and the expression of GnRH cells in the hypothalamus was detected by immunohistochemistry. Result:Compared with the normal group， the vaginal opening of the model group was significantly earlier， and the uterus and ovarian coefficients were significantly increased （<italic>P</italic><0.05）， indicating that the danazol-induced precocious puberty model was successfully established. The expression levels of GnRH， Kiss-1， and GPR54 also increased significantly （<italic>P</italic><0.05）， indicating that the danazol model can activate the HPG axis in advance， thereby inducing precocious puberty<bold>. </bold>Compared with the model group， the mid-dose Fuyou granule group significantly delayed the time of vaginal opening （<italic>P</italic><0.01）， high-dose Fuyou granule group<italic> </italic>significantly reduced uterine wall thickness and uterine coefficient （<italic>P</italic><0.05，<italic>P</italic><0.01）， mid-dose group reduced ovarian coefficient and uterine wall thickness （<italic>P</italic><0.05）. All the three dosage groups of Fuyou granule significantly reduced the content of serum hormones E₂， LH and FSH （<italic>P</italic><0.05，<italic>P</italic><0.01）， reduced the expression levels of hypothalamic GnRH， Kiss-1 and GPR54 mRNA （<italic>P</italic><0.05）， and decreased the expression of GnRH cells （<italic>P</italic><0.05）. Conclusion:Fuyou granule can achieve therapeutic precocity by regulating the Kiss-1/GPR54 system and down-regulating the expression of GnRH to inhibit the activation of the HPG axis.

Regulatory mechanisms of microRNAs involved in pubertal development / 国际儿科学杂志

The regulatory mechanisms of pubertal development are complex and affected by many factors.MicroRNAs, which major participants in epigenetics, are short single-stranded RNAs composed of 21-25 nucleotides.They can regulate the expression or translation of multiple target genes, playing an important role in complex biological phenomena.During pubertal development, microRNAs can regulate the expression of related genes on the hypothalamic-pituitary-gonadal axis(HPGA). Recently, studies have found that the lack or overexpression of some specific microRNAs can cause abnormal pubertal development(premature or delayed)and lead to reproductive disorders, providing a new direction for the diagnosis and treatment of puberty diseases.Here we mainly review the regulatory mechanisms that microRNAs participate in pubertal development.

Advances in research on anti-Müllerian tube hormone and male reproductive endocrine-related diseases / 基础医学与临床

Anti-Müllerian tube hormone(AMH), also known as Müllerian inhibitory substances, is a member of the transformation system. In males, AMH is secreted by immature Sertoli cell which promotes the degradation of male fetal Müllerian tubes,and participates in testicular development and spermatogenesis.AMH can regulate gona-dotropin-releasing hormone (GnRH), pituitary secretes follicle stimulating hormone (FSH) and luteinizing hormone (LH),testicular stromal cells secrete testosterone(T) and inhibin B causes male reproductive endocrine related diseases through HPG axis.

Atuação das proteínas do relógio na senescência reprodutiva de ratas Wistar / Clock protein action in the senescence reproductive of female Wistar rats

O envelhecimento é considerado processo multidimensional no qual fatores ambientais podem proteger ou, inversamente, agravar seus sinais, de maneira não linear, nos processos fisiológicos e neurocomportamentais. Durante este processo, os ritmos circadianos são interrompidos ou fragmentados com dissociação consequente dos ritmos circadianos do indivíduo e disfunções relacionadas ao relógio circadiano contribuem para o envelhecimento e para patologias a ele relacionadas. O objetivo deste estudo foi averiguar possível alteração temporal do sistema CLOCK no eixo HPG e a relação com às alterações hormonais que caracterizam a periestropausa. Foram utilizadas fêmeas adultas com ciclo estral regular (CD) na fase do diestro e fêmeas senis com ciclo estral irregular e persistência da fase do diestro (IDP). Para análises de expressão gênica dos clock genes Per2, Rev-erbα e Bmal1 no eixo HPG, foram utilizados punchs das regiões do NSQ, onde também foi analisado RNAm de AVP, APO e HMB destes animais, além da adenohipófise e ovários dos quais se extraiu o RNA para confecção do cDNA e realização de qPCR. A determinação da atividade neuronal vasopressinérgica no NSQ foi realizada por imunoistoquíca com dupla marcação para cFos e AVP em tecido previamente fixado com paraformaldeído. A concentração plasmática de gonadotrofinas foi determinada por radioimunoensaio. De modo geral, os animais IDP revelaram alterações no perfil de expressão gênica durante o fotoperíodo, com redução de amplitude, deslocamento/desalinhamento de fase e ausência de antifase. O NSQ de animais IDP apresentou menor expressão de Rev-erbα e maior expressão de RNAm para AVP em relação ao grupo CD. A quantificação relativa de Bmal1 foi semelhante em ambos os grupos e não houve diferenças entre grupos na expressão de Per2. Na APO, animais IDP apresentaram maior expressão de Per2 e menor quantidade de RNAm para Rev-erbα. No HMB observou-se menor expressão para Per2 e Rev-erbα e maior expressão de Bmal1 nas fêmeas IDP. Per2 e Bmal1 na adenohipófise tiveram menor expressão que o gene Rev-erbα no grupo senil e o ovário destes animais revelou maior expressão para Per2 e Rev-erbα, em comparação com os animais CD. As concentrações plasmáticas de FSH foram maiores nas fêmeas com ciclo irregular (2,05 ± 0,44 ng/mL), principalmente durante a fase clara, assim como o LH (0,24 ± 0,07 ng/mL), cujos maiores valores foram encontrados durante a fase escura e com perfil semelhante ao RNAm de AVP. As imunomarcações revelaram alta atividade vasopressinérgica na porção dorsomedial do NSQ das fêmeas IDP. Juntos estes dados permitem concluir que há desarranjo na expressão temporal dos genes Per2, Rev-erbα, Bmal1 que compõem a maquinaria molecular do relógio circadiano, bem como de RNAm para AVP no NSQ, de fêmeas Wistar na periestropausa. Além disso, a maior atividade neuronal vasopressinérgica e a ausência de oscilação de Rev-erbα e Bmal1 no NSQ destes animais, comprometem a correta comunicação do relógio central do NSQ com o eixo HPG, inviabilizando a manutenção da fertilidade feminina e contribuindo para a senescência reprodutiva(AU)

Aging is considered a multidimensional process in which environmental factors can protect or, conversely, aggravate its signals, non-linearly, in physiological and neurobehavioral processes. During this process, circadian rhythms are disrupted or fragmented with consequent dissociation of the individual's circadian rhythms and circadian clock-related dysfunctions contribute to aging and related pathologies. The objective of this study was to investigate possible temporal alteration of the CLOCK system in the HPG axis and the relation with the hormonal changes that characterize periestropause. Adult females with regular estrus cycle in the diestrous phase (RD) and old females with irregular estrous cycle and persistent diestrous phase (IPD). For analyzes of the gene expression of the genes Per2, Rev-erbα and Bmal1 in the HPG axis, punchs from the NSQ regions were used, where AVP, POA and MBH RNAm from these animals were also analyzed, as well as the adenohypophysis and ovaries from which they were extracted the RNA for cDNA production and qPCR performance. The determination of the vasopressinergic neuronal activity in the NSQ was performed by immunohistochemical with double labeling for cFos/AVP in tissue previously fixed with paraformaldehyde. The plasma concentration of gonadotrophins was determined by radioimmunoassay. In general, the IPD animals show alterations in the gene expression profile during the period analyzed, with amplitude reduction, phase shift / misalignment and absence of antiphase. The NSQ of IPD animals presented lower expression of Rev-erbα and higher RNAm expression for AVP than RD group. The relative quantification of Bmal1 was similar in both groups and there were no differences between groups in the expression of Per2. In PAO, IPD animals showed higher expression of Per2 and less amount of RNAm for Rev-erbα. MBH showed lower expression for Per2 and Rev-erbα and higher Bmal1 expression in IPD females. Per2 and Bmal1 in the adenohypophysis had lower expression than the Rev-erbα gene in the old group and the ovary of these animals showed higher expression for Per2 and Rev-erbα, in related to to the RD animals. Plasma concentrations of FSH were higher in females with irregular cycle (2.05 ± 0.44 ng / mL), mainly during the light phase, as well as LH (0.24 ± 0.07 ng / mL) whose values were found during the dark phase and with a profile similar to AVP RNAm. Immunolabeling demonstrated high vasopressinergic activity in the dorsomedial portion of the NSQ of the IPD females. Together these data allow us to conclude that there is a breakdown in the temporal expression of the Per2, Rev-erbα, Bmal1 genes that make up the molecular machinery of the circadian clock, as well as RNAm for AVP in NSQ of Wistar females in peri-masterpause. In addition, the increased vasopressinergic neuronal activity and the absence of Rev-erbα and Bmal1 oscillation in the NSQ of these animals compromise the correct communication of the central clock of the NSQ with the HPG axis, making it impossible to maintain female fertility and contributing to reproductive senescence(AU)

The involvement of the hypothalamic-pituitary-gonadal, hypothalamic-pituitary-adrenal and somatotrophic axes in the development and treatment of schizophrenia.

In the present review, organizational and activational hormonal effects are proposed to be dysfunctional in schizophrenia and psychosis. Specifically, organizational effects are held responsible for the long-lasting anatomical and functional changes in brain development associated with the disease. Later in life, activational effects may be superimposed and may interact with the earlier induced biological vulnerabilities, eventually triggering the first psychotic episode in schizophrenia. In parallel, it is known that schizophrenia follows a different course in male and female patients and that the first psychotic episode frequently occurs shortly before or during puberty. The different course of schizophrenia in male and female patients seems to be related to digressions in hormonal secretion between the genders. Further the excessive change of hormonal secretion during puberty suggests a relationship between hormonal secretion and the development of schizophrenia, possibly mediated by epigenetic regulation of neuroendocrine systems. We discuss the Hypothalamic-Pituitary-Gonadal (HPG), the Hypothalamic-Pituitary-Adrenal (HPA) and the Somatotropic axes and further present evidence for positive treatment effects in schizophrenia by hormonal agents. We conclude that organizational as well as activational effects of hormones may attribute to the development of schizophrenia. Research on hormonal factors in schizophrenia might therefore enhance the general understanding of the disease in regard to its neurobiology and treatment options.

Reproductive response in offspring male rats exposed to prenatal stress and to early postnatal stimulation / Respuestas reproductivas en ratas estresadas prenatalmente, expuestas a estimulación postnatal

Stress in pregnant rats alters the pattern of secretion of corticosterone (COR) and modifies transplacentally hypothalamic-pituitary-adrenal axis (HPA) fetus. Prenatal stress during the critical hypothalamic differentiation is related to decreased fertility of male offspring by an increase in the basal level of COR. This modification could induce long-term changes in the process of apoptosis in the testis. However, early postnatal handling increases maternal behavior and could reverse the effects caused by increased secretion of COR. The aim of this research was to investigate the effects of early postnatal stimulation of male rats prenatal stressed by chronic immobilization during the last two weeks of pregnancy, on the hypothalamic-pituitary-gonadal axis and their relationship with the activity of the HPA. Male Wistar rats 3 month olds, were separated in four groups: (a) prenatally stressed animals by immobilization (IMO), without postnatal stimulation; (b) prenatally stressed animals with postnatal stimulation; (c) control animals without prenatal stress, without postnatal stimulation and (d) control animals without prenatal stress, with postnatal stimulation. In different animals groups plasmatic levels of COR, Testosterone (T) and Luteinizing Hormone (LH) were analyzed. Gonadosomatic index and testicular apoptosis was determined. In conclusion that prenatal stress by IMO increased levels of COR and inhibits the HHG axis obtaining low values of plasmatic LH and T, testicular weight, and induction of apoptosis in testes. On other hand, early postnatal stimulation results in an increase in maternal care to the offspring reversing the effects of prenatal stress on the HPG axis. This effect could be mediated by a mechanism independent of the HPA axis.

El estrés en ratas preñadas altera el patrón de secreción de corticosterona (COR) materna la cual, por vía transplacentaria, produce una alteración del eje Hipotálamo-Hipófiso-Adrenal (HHA) fetal. El estrés prenatal producido durante la etapa crítica de diferenciación hipotalámica, está relacionado con la disminución de la fertilidad en las crías macho, por un aumento en el nivel de COR basal. Esta modificación podría inducir cambios a largo plazo en el proceso de apoptosis testicular. Sin embargo, la estimulación postnatal temprana mejora el comportamiento materno, revirtiendo las alteraciones producidas por el aumento de COR en las crías adultas. El objetivo fue investigar el efecto de la estimulación postnatal temprana sobre el eje Hipotálamo-Hipófiso-Gonadal (HHG) en ratas macho estresadas prenatalmente (EP), por inmovilización crónica durante las dos últimas semanas de la preñez. Se utilizaron crías de 3 meses de edad, que fueron divididas en 4 grupos: (a) individuos EP y sin estimulación postnatal; (b) individuos EP con estimulación postnatal; (c) individuos controles no estresados prenatalmente (CP) y sin estimulación postnatal; y (d) individuos CP con estimulación postnatal. En todos los grupos se midió COR, Testosterona (T) y Hormona Luteinizante (LH). Se determinaron la apoptosis y la Caspasa 3 testicular y el índice gonadosomático. Se concluye que el estrés prenatal por inmovilización aumenta los niveles de COR del eje HHA e inhibe el eje HHG obteniendo valores bajos de LH y T plasmáticas. Se observa disminución del tamaño testicular y aumento de la apoptosis de las células testiculares. Por otro lado, la estimulación postnatal temprana se traduce en un aumento del cuidado materno hacia la cría, lo que revierte los efectos producidos por el estrés prenatal sobre el eje HHG. Este efecto podría estar mediado por algún mecanismo independiente del eje HHA.