Jayita Pal Chowdhury

Bio: Jayita Pal Chowdhury is an academic researcher from Banaras Hindu University. The author has contributed to research in topics: Spermatogenesis & Steroidogenic factor 1. The author has an hindex of 2, co-authored 5 publications receiving 48 citations.

Photoperiodic regulation of ovarian steroidogenesis in a tropical rodent, Funambulus pennanti: role of melatonin and MT1

Abstract: To elucidate the role of photoperiodically modulated endogenous melatonin and its receptor MT1 in the ovary of a diurnal rodent, adult Indian palm squirrel Funambulus pennanti were exposed ...

Management of ovarian functions by melatonin

Abstract: Extensive research has unraveled a niche for melatonin that is of great significance for the female reproductive physiology. The potency of melatonin as an antioxidant, anti-inflammatory, and anti-apoptotic agent is being utilized to benefit female reproductive anomalies. Melatonin receptors have been localized in the Supra Chaismatic Nucleus (SCN), pars tuberalis (PT), and the gonads suggesting the regulation of reproduction by melatonin not only at a higher level but also on the gonads through complex interrelated mechanisms. Melatonin secreted by the pineal gland acts on the hypothalamus to regulate gonadotropin-releasing hormone and subsequently gonadotropin (FSH/LH) release from the PT. However, the de novo synthesis of this indoleamine reported in the gonads gave rise to the idea of a more localized action. The mammalian ovary has all the molecular machinery required for the biosynthesis of melatonin and interestingly concentration of melatonin in the follicular fluid of pre-ovulatory follicles is much higher than circulatory melatonin even in humans. This locally produced melatonin has been shown to modulate various pathways governing ovarian steroidogenesis. Further, melatonin and its receptors play a significant role in antioxidant defense mechanism of ovary for follicular growth and maturation. Exposure to stress strongly influences hypothalamic-pituitary-adrenal axis and elevated glucocorticoid levels suppress various ovarian functions including implantation thereby pregnancy. Melatonin acts antagonistically with glucocorticoids, making it crucial for the management of the female reproductive functions/dysfunctions. Usage of melatonin during in vitro fertilization (IVF) procedures has been found to improve oocyte quality, survival, and fecundity. Therefore, in future, melatonin can be implicated as preferable therapeutic especially in IVF and assisted reproductive techniques.

Chronodisruption and Loss of Female Reproductive Potential Due to Shift Work

Abstract: Entrainment of 24 hrs light/dark cycle is nowadays getting altered in corporate sector and even at home due to over exposure to artificial light at night (ALAN) and is commonly denoted as chronodisruption. Chronodisruption interferes with the daily physiology that is regulated by SCN/pineal-melatonin/Hypothalamo-Pituitary axis. In females, reduction in sleep due to shift work desynchronizes HPG-HPA axis induces a stress like condition, accompanied by increased free radical generation in ovary leading to polycystic ovaries, depletion of ovarian reserve, luteal phase defects, endometriosis, implantation failure, etc. Evidence suggest that there is remedial rescue by management of circulatory melatonin due to its chronobiotic/antioxidant/anti-inflamatory/antiapoptotic potentials and its role in ovarian folliculogenesis and steroidogenesis. Advancement in melatonin research suggests that it could be beneficial for commercial use, that is, (1) as an endogenous synchronizer, (2) to improve the quality of oocyte, and (3) for promoting success in the frequency of IVF.

Impact of coronavirus disease-2019 pandemic on assisted reproductive technologies: Potentialities of melatonin in management

Abstract: The world is still grappling with the threat due to the emergence of the coronavirus disease-2019 (COVID-19) caused by a new variant of coronavirus. The high transmission of the virus among humans has led to a pandemic and there is also emergence of mutant strain of virus (severe acute respiratory syndrome coronaviruses 2 Variant VOC 202012/01) within communities. With the uncertainties in the development, efficacy and reach of an effective vaccine among the masses, it has become a mammoth task for human beings to carry on with the dayto-day task and lifestyle. This has severely impacted the health-care services including the fertility treatments. The assisted reproductive technology (ART) services have accordingly molded itself to cater to patients. There are various guidelines and regulations introduced to provide fertility services on the basis of priority of the patients seeking treatments, keeping in compliance to the safety measures for the healthcare staffs and patients. On the other hand, couples wish to pursue their way to parenthood even in the testing times. Melatonin, a neurohormone, is a multipotent molecule associated with male and female reproduction and is being protectively involved in the various reproductive processes. It maintains the circadian rhythmicity of various hormones and has potentials in treating COVID-19 patients. Its use in IVF procedures can be protective and effective measure to deal with the uncertainties of time. Its immune enhancing role can be utilized in fulfilling the patients’ health and achieving fertility goals contributing to the success of ART.

Endocrine-disrupting chemicals and male reproductive health.

Abstract: Background A number of different types of endocrine-disrupting chemicals (EDCs) including bisphenol A, phthalates, pesticides, and other environmental chemicals have been shown to adversely impact upon male reproductive health. Understanding the potential effects of EDCs on male reproductive health may enable the development of novel treatments and early prevention of the effects of EDCs on male infertility and their potential long-term sequelae. This review critically evaluates the research performed in this area and explores potential harmful effects of EDCs in animals and humans, including the possibility of trans-generational transmission. Methods A literature review was conducted using electronic databases using the following terms: 'endocrine disrupt*' OR 'endocrine disruptors' OR 'endocrine disruptor chemicals' OR 'EDC' AND 'sperm*' OR 'spermatozoa' OR 'spermatozoon' OR 'male reproductive health' OR' male fertility'. Main findings Several studies have shown that EDCs have a variety of pathophysiological effects. These include failure of spermatogenesis, embryonic development, the association with testicular cancer, and long-term metabolic effects. Conclusions Several studies observe correlations between chemical doses and at least one sperm parameter; however, such correlations are sometimes inconsistent between different studies. Mechanisms through which EDCs exert their pathophysiological effects have not yet been fully elucidated in human studies.

Mitochondrial DNA mutation exacerbates female reproductive aging via impairment of the NADH/NAD+ redox.

Abstract: Mammals' aging is correlated with the accumulation of somatic heteroplasmic mitochondrial DNA (mtDNA) mutations. Whether and how aging accumulated mtDNA mutations modulate fertility remains unknown. Here, we analyzed oocyte quality of young (≤30 years old) and elder (≥38 years old) female patients and show the elder group had lower blastocyst formation rate and more mtDNA point mutations in oocytes. To test the causal role of mtDNA point mutations on infertility, we used polymerase gamma (POLG) mutator mice. We show that mtDNA mutation levels inversely correlate with fertility, interestingly mainly affecting not male but female fertility. mtDNA mutations decrease female mice's fertility by reducing ovarian primordial and mature follicles. Mechanistically, accumulation of mtDNA mutations decreases fertility by impairing oocyte's NADH/NAD+ redox state, which could be rescued by nicotinamide mononucleotide treatment. For the first time, we answer the fundamental question of the causal effect of age-accumulated mtDNA mutations on fertility and its sex dependence, and show its distinct metabolic controlling mechanism.

Research progress on the role of melatonin and its receptors in animal reproduction: A comprehensive review.

Abstract: Melatonin and its receptors play a crucial role in the regulation of the animal reproductive process, primarily in follicular development. However, the role that melatonin performs in regulating hormones related with reproduction remains unclear. Melatonin and its receptors are present both in female and male animals' organs, such as ovaries, heart, brain and liver. Melatonin regulates ovarian actions and is a key mediator of reproductive actions. Melatonin has numerous effects on animal reproduction, such as protection of gametes and embryos, response to clock genes, immune-neuroendocrine, reconciliation of seasonal variations in immune function, and silence or blockage of genes. The growth ratio of reproductive illnesses in animals has raised a remarkable concern for the government, animal caretakers and farm managers. In order to resolve this challenging issue, it is very necessary to conduct state-of-the-art research on melatonin and its receptors because melatonin has considerable physiognomies. This review article presents a current contemporary research conducted by numerous researchers from the entire world on the role of melatonin and its receptors in animal reproduction, from the year 1985 to the year 2017. Furthermore, this review shows scientific research challenges related to melatonin receptors and their explanations based on the findings of 172 numerous research articles, and also represents significant proficiencies of melatonin in order to show enthusiastic study direction for animal reproduction researchers.