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5. High Fat-High Fructose Diet Elicits Hypogonadotropism Culminating in Autophagy-Mediated Defective Differentiation of Ovarian Follicles

Author

Chalikkaran Thilakan Rejani, Ajit Kumar Navin, Thekkey Madathil Valappil Mumthaz, and Venugopal Bhuvarahamurthy

Subjects
autophagy, GnRHR, hypogonadotropism hypogonadism, folliculogenesis, steroidogenesis, infertility, Cytology, QH573-671
Abstract

Pituitary gonadotropins directly govern ovarian functions, which are in turn regulated by the ovarian steroid hormones. The precise interplay of gonadotropins and steroid hormones is critical for follicle growth and differentiation. Furthermore, autophagy regulates ovarian follicle differentiation. However, how the high-fat-high fructose (HFD-HF) diet regulates gonadotropins and facilitates autophagy-mediated follicular differentiation in the ovary is obscure. We fed prepubertal rats (PND 25) an HFD-HF diet until PND 90. The results showed diminished adenohypophyseal GnRHR, PR, and aromatase expression, whereas AR, ERα, PRLR, and inhibin were augmented, resulting in gonadotropins decline. Interestingly, autophagy biomarkers, Beclin-1, ATG5, ATG12, LC3-II, and LAMP1 were reduced but SQSTM1/p62 was augmented in the ovaries of HFD-HF-fed rats, causing autolysosome to aggregation. The diet altered T, E2, P4, PRL, and their receptors status in the ovary, disturbed estrous cyclicity, and delayed vaginal opening. Ovarian histomorphology exhibited numerous cystic and atretic follicles, along with disturbed follicular maturation and ovulation. Moreover, the reduction of FSHR; steroidogenic proteins; receptor proteins AR, ERβ, PR; and signaling proteins Wnt2 and β-catenin was also noticed in the ovary, whereas PRLR, inhibin, and pGSK3β were augmented. In conclusion, exposure to a prepubertal HFD-HF diet leads to hypogonadotropism and the autophagy-mediated defective differentiation of ovarian follicles, abating fertility in adult rats.

Published
2022
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6. A Comprehensive Transcriptomic Analysis of Arsenic-Induced Bladder Carcinogenesis

Author

Vaibhav Shukla, Balaji Chandrasekaran, Ashish Tyagi, Ajit Kumar Navin, Uttara Saran, Rosalyn M. Adam, and Chendil Damodaran

Subjects
arsenic, bladder cancer, differential gene expression, stem cells, KEGG and GO enrichment, Cytology, QH573-671
Abstract

Arsenic (sodium arsenite: NaAsO2) is a potent carcinogen and a known risk factor for the onset of bladder carcinogenesis. The molecular mechanisms that govern arsenic-induced bladder carcinogenesis remain unclear. We used a physiological concentration of NaAsO2 (250 nM: 33 µg/L) for the malignant transformation of normal bladder epithelial cells (TRT-HU1), exposed for over 12 months. The increased proliferation and colony-forming abilities of arsenic-exposed cells were seen after arsenic exposure from 4 months onwards. Differential gene expression (DEG) analysis revealed that a total of 1558 and 1943 (padj < 0.05) genes were deregulated in 6-month and 12-month arsenic-exposed TRT-HU1 cells. The gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis revealed that cell proliferation and survival pathways, such as the MAPK, PI3K/AKT, and Hippo signaling pathways, were significantly altered. Pathway analysis revealed that the enrichment of stem cell activators such as ALDH1A1, HNF1b, MAL, NR1H4, and CDH1 (p < 0.001) was significantly induced during the transformation compared to respective vehicle controls. Further, these results were validated by qPCR analysis, which corroborated the transcriptomic analysis. Overall, the results suggested that stem cell activators may play a significant role in facilitating the arsenic-exposed cells to gain a survival advantage, enabling the healthy epithelial cells to reprogram into a cancer stem cell phenotype, leading to malignant transformation.

Published
2022
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8. Unraveling Hypothalamus-Pituitary dysregulation: Hypergonadotropism in F1 progeny due to prenatal exposure to hexavalent chromium.

Author

Navin, Ajit Kumar, Aruldhas, Mariajoseph Michael, Mani, Kathiresh Kumar, Navaneethabalakrishnan, Shobana, Venkatachalam, Sankar, and Banu, Sakhila K.

Subjects
PRENATAL exposure, HEXAVALENT chromium, LUTEINIZING hormone releasing hormone receptors, TRANSCRIPTION factors, INHIBIN
Abstract

The endocrine disruptor hexavalent chromium [Cr(VI)] is a proven reproductive toxicant. We recently demonstrated that prenatal Cr(VI) exposure causes testicular resistance to gonadotropins, resulting in hypergonadotropic hypoandrogenism in F1 rats. However, the mechanism driving hypergonadotropism in F1 rats exposed to Cr (VI) prenatally remains an enigma. Therefore, we hypothesized that 'Prenatal Cr(VI) exposure may disrupt steroid hormones-mediated negative feedback regulation of the hypothalamic GnRH, and its receptor in the pituitary of F1 rats, leading to hypergonadotropism.' We administered potassium dichromate (50, 100, or 200 mg/L) to pregnant rats through drinking water between days 9 and 14, and their male F1 offspring were euthanized at 60 days of age. Prenatal Cr(VI) exposure in F1 rats resulted in the accumulation of Cr in the hypothalamus and pituitary. Western blot detected decreased hypothalamic GnRH, Kisspeptin1, and its receptor GPR54, along with diminished ERα, AR, aromatase, and 5α reductase, and GnRH regulatory transcription factors Pit-1 and GATA-4 proteins. Immunohistochemical studies revealed increased immunopositivity of GnRH receptor, AR, 5α reductase, ERα, ERβ, and aromatase proteins in the pituitary, whereas decreased Kisspeptin1, GPR54, and inhibin β. Our findings imply that Cr(VI) exposure during the prenatal period disrupts the hypothalamic Kisspeptin-GPR54-Pit-1/GATA4-GnRH network, boosting the pituitary GnRH receptor. We conclude that prenatal exposure to Cr(VI) alters GnRH expression in the hypothalamus and its receptor in the pituitary of F1 progeny through interfering with the negative feedback effect of androgens and estrogens. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Gestational-onset Hypothyroidism Affects Genes Controlling Epididymal Sperm Maturation in F1 Progeny Rats

Author

Balaji, Sadhasivam; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Shobana, Navaneethabalakrishnan; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Kumar Navin, Ajit; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Anbalagan, Jaganathan; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Ravi Sankar, Bhaskaran; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Ilangovan, Ramachandran; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Michael Aruldhas, Mariajoseph; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Balaji, Sadhasivam; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Shobana, Navaneethabalakrishnan; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Kumar Navin, Ajit; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Anbalagan, Jaganathan; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Ravi Sankar, Bhaskaran; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, Ilangovan, Ramachandran; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113, and Michael Aruldhas, Mariajoseph; Department of Endocrinology, Dr. A.L.M. Post-Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Chennai – 600113

Abstract

Purpose: Hypothyroidism is associated with infertility. We have reported that gestational-onset hypothyroidism impairs post-testicular sperm maturation in F1 progeny rats, whereas the underlying mechanism remains obscure. In this study, we tested the hypothesis “transient gestational-onset hypothyroidism affects post-testicular sperm maturation by inducing oxidative stress and modifying the expression of specific genes controlling epididymal function in F1 progeny rats”. Methods: Hypothyroidism was induced by providing 0.05% methimazole in drinking water to pregnant rats during specific periods of foetal differentiation of testis and epididymis. On the postnatal day 120, epididymes were dissected out and used for various analyses. Sperm parameters and activities of antioxidants and pro-oxidants were assayed using standard protocols. qRT-PCR and western blot were carried out to assess the expression of epididymal functional genes and their respective proteins. Results: Gestational-onset hypothyroidism produced decrease of sperm motility and membrane integrity, and increase of abnormal sperm morphologies. While the concentration of reduced glutathione and specific activities of antioxidant enzymes superoxide dismutase, catalase and glutathione peroxidase decreased, levels of pro-oxidants hydrogen peroxide and lipid peroxidation increased. Expression levels of androgen and thyroid hormone receptors ?/?, aquaporin 9, and glutathione peroxidise 5 decreased, whereas estrogen receptors ?/? increased in rats with gestational-onset hypothyroidism. Conclusion: Our results support our hypothesis and we conclude that gestationalonset hypothyroidism impairs post-testicular sperm maturation due to oxidative stress and modified expression of nuclear hormone receptors and aquaporin 9 in the epididymis of F1 progeny.

Published
2022

13. Gestational-onset Hypothyroidism Affects Genes Controlling Epididymal Sperm Maturation in F1 Progeny Rats

Author

Balaji, Sadhasivam, Shobana, Navaneethabalakrishnan, Kumar Navin, Ajit, Anbalagan, Jaganathan, Ravi Sankar, Bhaskaran, Ilangovan, Ramachandran, Michael Aruldhas, Mariajoseph, Balaji, Sadhasivam, Shobana, Navaneethabalakrishnan, Kumar Navin, Ajit, Anbalagan, Jaganathan, Ravi Sankar, Bhaskaran, Ilangovan, Ramachandran, and Michael Aruldhas, Mariajoseph

Abstract

Purpose: Hypothyroidism is associated with infertility. We have reported that gestational-onset hypothyroidism impairs post-testicular sperm maturation in F1 progeny rats, whereas the underlying mechanism remains obscure. In this study, we tested the hypothesis “transient gestational-onset hypothyroidism affects post-testicular sperm maturation by inducing oxidative stress and modifying the expression of specific genes controlling epididymal function in F1 progeny rats”. Methods: Hypothyroidism was induced by providing 0.05% methimazole in drinking water to pregnant rats during specific periods of foetal differentiation of testis and epididymis. On the postnatal day 120, epididymes were dissected out and used for various analyses. Sperm parameters and activities of antioxidants and pro-oxidants were assayed using standard protocols. qRT-PCR and western blot were carried out to assess the expression of epididymal functional genes and their respective proteins. Results: Gestational-onset hypothyroidism produced decrease of sperm motility and membrane integrity, and increase of abnormal sperm morphologies. While the concentration of reduced glutathione and specific activities of antioxidant enzymes superoxide dismutase, catalase and glutathione peroxidase decreased, levels of pro-oxidants hydrogen peroxide and lipid peroxidation increased. Expression levels of androgen and thyroid hormone receptors ?/?, aquaporin 9, and glutathione peroxidise 5 decreased, whereas estrogen receptors ?/? increased in rats with gestational-onset hypothyroidism. Conclusion: Our results support our hypothesis and we conclude that gestationalonset hypothyroidism impairs post-testicular sperm maturation due to oxidative stress and modified expression of nuclear hormone receptors and aquaporin 9 in the epididymis of F1 progeny.

Published
2022

14. Abstract 745: Molecular landscape of arsenic-induced bladder carcinogenesis

Author

Ajit Kumar Navin, Vaibhav Shukla, Balaji Chandrasekaran, Ashish Tyagi, Uttara Saran, Murali K. Ankem, and Chendil Damodaran

Subjects
Cancer Research, Oncology
Abstract

Introduction: Epidemiological, pre-clinical, and clinical studies have linked chronic arsenic (sodium arsenite: NaAsO2) exposure to a myriad of adverse health dysfunctions including the development of bladder cancer (BCa). However, most of the studies on arsenic-induced BCa have been performed on either unsuitable cell lines or using a higher concentration of arsenic (mM), which does not reflect exposure levels in a real-world setting. We used the telomerase reverse transcriptase (HU-hTERT1) immortalized normal bladder epithelial and a median physiological concentration of NaAsO2 (250 nM: 33 mg/L), to determine the transcriptomic and phenotypic changes during malignant transformation of HU-hTERT1 cells. Methods: HU-hTERT1 cells were exposed to 250nM arsenic for 12 months. To analyze the effect of arsenic exposure we performed cell viability, cellular proliferation, and clonogenic assays. RNA Seq data was used to perform pathway enrichment analysis, Gene Ontology (GO) analysis, Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis, and protein-protein interaction (PPI) studies. Results: BCa patients had significantly higher (4-5 fold) levels of arsenic (20-50 mg/L) in their urine when compared to their healthy counterparts ( 400nM) inhibited the HU-hTERT1 growth, whereas concentrations less than 400nM did not adversely affect the viability of these cells. HU-hTER1 cells began forming colonies after six months of chronic NaAsO2 exposure, with the number of colonies increasing concurrently with the exposure time. GO and KEGG analysis showed a total of 2174 genes that are differentially expressed in arsenic-treated HU-hTER1 transforming cells (0 vs 12 months). The upregulated genes (1392) were involved in cellular response to unfolded protein, response to endoplasmic reticulum stress, proteasome-mediated ubiquitin-dependent protein degradation, autophagy signaling, and tumor angiogenesis(P Conclusion: An in vitro model of NaAsO2-induced malignant transformation was developed. Identifying precise molecular events that lead to arsenic-induced malignant transformation of normal urothelial cells would be an important step in defining therapy for BCa. Citation Format: Ajit Kumar Navin, Vaibhav Shukla, Balaji Chandrasekaran, Ashish Tyagi, Uttara Saran, Murali K. Ankem, Chendil Damodaran. Molecular landscape of arsenic-induced bladder carcinogenesis [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 745.

Published
2022
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15. Prenatal exposure to hexavalent chromium disrupts testicular steroidogenic pathway in peripubertal F

Author

Ajit Kumar, Navin, Mariajoseph Michael, Aruldhas, Shobana, Navaneethabalakrishnan, Kathireshkumar, Mani, Felicia Mary, Michael, Narasimhan, Srinivasan, and Sakhila K, Banu

Subjects
Chromium, Male, Cholestenone 5 alpha-Reductase, Receptors, Steroid, 17-Hydroxysteroid Dehydrogenases, Receptors, Prolactin, Receptors, LH, Carcinogens, Environmental, Hormones, Pregnancy, Prenatal Exposure Delayed Effects, Testis, Animals, Female, Potassium Dichromate, Rats, Wistar, Maternal-Fetal Exchange
Abstract

We have reported sub-fertility in F

Published
2020

16. Transient Gestational Exposure to Hexavalent Chromium (CrVI) Adversely Affects Testicular Differentiation: A Study in Rat Model

Author

Kumar Navin, Ajit; Department of Endocrinology, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113, Tamil Nadu, Shobana, Navaneethabalakrishnan; Department of Endocrinology, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113, Tamil Nadu, Venkatachalam, Sankar; Department of Anatomy, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113, Tamil Nadu, Abdulkader Akbarsha, Mohammad; Life Sciences, National College (Autonomous), Tiruchirappalli – 620001, Tamil Nadu, Banu, Sakhila K.; Department of Veterinary Integrative Biosciences, Texas A & M University, Texas, Michael Aruldhas, Mariajoseph; Department of Endocrinology, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113, Kumar Navin, Ajit; Department of Endocrinology, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113, Tamil Nadu, Shobana, Navaneethabalakrishnan; Department of Endocrinology, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113, Tamil Nadu, Venkatachalam, Sankar; Department of Anatomy, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113, Tamil Nadu, Abdulkader Akbarsha, Mohammad; Life Sciences, National College (Autonomous), Tiruchirappalli – 620001, Tamil Nadu, Banu, Sakhila K.; Department of Veterinary Integrative Biosciences, Texas A & M University, Texas, and Michael Aruldhas, Mariajoseph; Department of Endocrinology, Dr. A.L.M. Post Graduate Institute of Basic Medical Sciences, University of Madras, Taramani Campus, Taramani-Velachery Link Road, Chennai – 600113

Abstract

Chromium (Cr), an essential trace element, turns into an endocrine disruptor and male reproductive toxicant when its concentration in drinking water exceeds the safe limit. Improper disposal of effluents from more than 50 industries that use Cr contaminate the environment, in addition to occupational exposure of the workers. Testis has come to stay as a target for the reproductive toxicity of hexavalent Cr (CrVI), whereas its impact on fetal testicular differentiation remains elusive. We tested the hypothesis “In utero exposure to CrVI may alter the level of specific proteins controlling differentiation of testicular cell types”. Pregnant Wistar rats were exposed to drinking water containing 50, 100 and 200 ppm potassium dichromate (CrVI) during gestational days 14 to 21, covering the period of fetal differentiation of testicular cells. Testes were collected on postnatal day 1 and subjected to light microscopic histological studies and immunohistochemical detection of cell-specific proteins. Testis of neonatal rats with gestational exposure to high doses of CrVI showed shrunken and dispersed tubules with fewer gonocytes, extensive vacuolization of seminiferous cord accompanied by damaged epithelium, and shrunken Leydig cells present in large interstitial spaces and loose compaction of cells when compared coeval control group. Immunosignals of androgen and estrogen receptor β increased, whereas those of estrogen receptor α, follicle stimulating hormone receptor, anti-Mullerian hormone, P450 aromatase, inhibin, c-fos and c-jun decreased. Immunosignals of steroidogenic acute regulatory protein and CYP11A1 increased, whereas 3β - hydroxy steroid dehydrogenase and CYP17A1 proteins decreased, indicating compromised steroidogenic function. Our findings support the proposed hypothesis and we conclude that gestational exposure to CrVI disrupts specific hormones and hormone receptors that control fetal differentiation of testicular cells. The detrimental effect of gest

Published
2019

17. Transient Gestational Exposure to Hexavalent Chromium (CrVI) Adversely Affects Testicular Differentiation: A Study in Rat Model

Author

Kumar Navin, Ajit, Shobana, Navaneethabalakrishnan, Venkatachalam, Sankar, Abdulkader Akbarsha, Mohammad, Banu, Sakhila K., Michael Aruldhas, Mariajoseph, Kumar Navin, Ajit, Shobana, Navaneethabalakrishnan, Venkatachalam, Sankar, Abdulkader Akbarsha, Mohammad, Banu, Sakhila K., and Michael Aruldhas, Mariajoseph

Abstract

Chromium (Cr), an essential trace element, turns into an endocrine disruptor and male reproductive toxicant when its concentration in drinking water exceeds the safe limit. Improper disposal of effluents from more than 50 industries that use Cr contaminate the environment, in addition to occupational exposure of the workers. Testis has come to stay as a target for the reproductive toxicity of hexavalent Cr (CrVI), whereas its impact on fetal testicular differentiation remains elusive. We tested the hypothesis "In utero exposure to CrVI may alter the level of specific proteins controlling differentiation of testicular cell types”. Pregnant Wistar rats were exposed to drinking water containing 50, 100 and 200 ppm potassium dichromate (CrVI) during gestational days 14 to 21, covering the period of fetal differentiation of testicular cells. Testes were collected on postnatal day 1 and subjected to light microscopic histological studies and immunohistochemical detection of cell-specific proteins. Testis of neonatal rats with gestational exposure to high doses of CrVI showed shrunken and dispersed tubules with fewer gonocytes, extensive vacuolization of seminiferous cord accompanied by damaged epithelium, and shrunken Leydig cells present in large interstitial spaces and loose compaction of cells when compared coeval control group. Immunosignals of androgen and estrogen receptor β increased, whereas those of estrogen receptor α, follicle stimulating hormone receptor, anti-Mullerian hormone, P450 aromatase, inhibin, c-fos and c-jun decreased. Immunosignals of steroidogenic acute regulatory protein and CYP11A1 increased, whereas 3β - hydroxy steroid dehydrogenase and CYP17A1 proteins decreased, indicating compromised steroidogenic function. Our findings support the proposed hypothesis and we conclude that gestational exposure to CrVI disrupts specific hormones and hormone receptors that control fetal differentiation of testicular cells. The detrimental effect of gestatio

Published
2019

18. Corrigendum to 'Transient gestational exposure to drinking water containing excess hexavalent chromium modifies insulin signaling in liver and skeletal muscle of rat progeny' [Chem. Biol. Interact. 277 (2017) 119-128]

Author

Mariajoseph Michael Aruldhas, A. Loganathan, S. Balaji, R. Ilangovan, L.A.S. Banu, Chinnaiyan Mayilvanan, Mani Kathiresh Kumar, L. Tochhawng, Ajit Kumar Navin, Karundevi Balasubramanian, and Navaneethabalakrishnan Shobana

Subjects
medicine.medical_specialty, Gestational exposure, biology, Chemistry, Skeletal muscle, General Medicine, Toxicology, Chem biol, Insulin receptor, chemistry.chemical_compound, medicine.anatomical_structure, Endocrinology, Internal medicine, medicine, biology.protein, Hexavalent chromium
Published
2018

19. Unraveling Hypothalamus-Pituitary dysregulation: Hypergonadotropism in F 1 progeny due to prenatal exposure to hexavalent chromium.

Author

Navin AK, Aruldhas MM, Mani KK, Navaneethabalakrishnan S, Venkatachalam S, and Banu SK

Subjects
Female, Pregnancy, Humans, Rats, Male, Animals, Estrogen Receptor alpha metabolism, Aromatase, Hypothalamus, Gonadotropin-Releasing Hormone metabolism, Receptors, LHRH metabolism, Prenatal Exposure Delayed Effects metabolism, Chromium
Abstract

The endocrine disruptor hexavalent chromium [Cr(VI)] is a proven reproductive toxicant. We recently demonstrated that prenatal Cr(VI) exposure causes testicular resistance to gonadotropins, resulting in hypergonadotropic hypoandrogenism in F 1 rats. However, the mechanism driving hypergonadotropism in F 1 rats exposed to Cr(VI) prenatally remains an enigma. Therefore, we hypothesized that 'Prenatal Cr(VI) exposure may disrupt steroid hormones-mediated negative feedback regulation of the hypothalamic GnRH, and its receptor in the pituitary of F1 rats, leading to hypergonadotropism.' We administered potassium dichromate (50, 100, or 200 mg/L) to pregnant rats through drinking water between days 9 and 14, and their male F1 offspring were euthanized at 60 days of age. Prenatal Cr(VI) exposure in F 1 rats resulted in the accumulation of Cr in the hypothalamus and pituitary. Western blot detected decreased hypothalamic GnRH, Kisspeptin1, and its receptor GPR54, along with diminished ERα, AR, aromatase, and 5α reductase, and GnRH regulatory transcription factors Pit-1 and GATA-4 proteins. Immunohistochemical studies revealed increased immunopositivity of GnRH receptor, AR, 5α reductase, ERα, ERβ, and aromatase proteins in the pituitary, whereas decreased Kisspeptin1, GPR54, and inhibin β. Our findings imply that Cr(VI) exposure during the prenatal period disrupts the hypothalamic Kisspeptin-GPR54-Pit-1/GATA4-GnRH network, boosting the pituitary GnRH receptor. We conclude that prenatal exposure to Cr(VI) alters GnRH expression in the hypothalamus and its receptor in the pituitary of F1 progeny through interfering with the negative feedback effect of androgens and estrogens., (© 2024 Wiley Periodicals LLC.)

Published
2024
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