Thyroid hormones activate TH/E2 receptor/regulator system and drive Na+/K+-ATPase in the ovarian wall of hypothyroid air-breathing fish (Anabas testudineus Bloch)

In fish, as in other vertebrates, thyroid hormones (THs) act on many biological processes including growth and reproduction. Primary THs such as thyroxine (T4) and triiodothyronine (T3) are known for their direct action on osmoregulatory organs regulating ion osmotic homeostasis in many teleost fishes. However, it is unclear how these hormones interact with estradiol-17β (E2), an ovarian hormone that regulates the development of oocytes. We thus examined the short-term in vivo action of varied THs such as T4, T3 and T2, a potent TH metabolite diiodothyronine, on the expression pattern of receptors of THs and E2 in the ovarian wall of the hypothyroid climbing perch to identify the interactive pattern of TH/E2 receptor system and the molecular dynamics of Na+/K+-ATPase (NKA) subunits in the ovarian wall that provides structural and functional support to ovary. We found differential pattern of transcript abundance of NKA subunits isoforms such as nkaα1a, nkaα1b, nkaα1c atp1b1, atp1b2 and fxyd3, fxyd5, fxyd6, TH receptor isoforms (tr<, trβ, tr Collapse

Key Words

• Anabas testudineus
• Estradiol 17 β receptor
• Fish
• Hypothyroid
• Na(+), K(+)- ATPase
• Ovarian wall
• T(4), T(3), T(2)
• Thyroid hormone receptor/regulator

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MESH Headings

• Animals
• Sodium-Potassium-Exchanging ATPase/metabolism
• Female
• Ovary/metabolism
• Thyroid Hormones/metabolism
• Receptors, Thyroid Hormone/metabolism
• Receptors, Thyroid Hormone/genetics
• Fishes/metabolism
• Hypothyroidism/metabolism

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Affiliation(s)

Meenu Viswanath Inter-University Centre for Evolutionary and Integrative Biology-iCEIB, School of Life Sciences, University of Kerala, Kariavattom, Thiruvananthapuram 695581, Kerala, India; Department of Zoology, University of Kerala, Kariavattom, Thiruvananthapuram 695581, Kerala, India

M C Subhash Peter Inter-University Centre for Evolutionary and Integrative Biology-iCEIB, School of Life Sciences, University of Kerala, Kariavattom, Thiruvananthapuram 695581, Kerala, India; Department of Zoology, University of Kerala, Kariavattom, Thiruvananthapuram 695581, Kerala, India; Sastrajeevan Integrative Bioresearch and Education-SIBE, F17-Gandhipuram, Sreekariyam, Thiruvananthapuram 695017, Kerala, India.

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Molecular Mechanisms of Spawning Habits for the Adaptive Radiation of Endemic East Asian Cyprinid Fishes

Despite the widespread recognition of adaptive radiation as a driver of speciation, the mechanisms by which natural selection generates new species are incompletely understood. The evolutionary radiation of endemic East Asian cyprinids has been proposed as evolving through a change in spawning habits, involving a transition from semibuoyant eggs to adhesive eggs in response to crosslinked river-lake system formation. Here, we investigated the molecular mechanisms that underpin this radiation, associated with egg hydration and adhesiveness. We demonstrated that semibuoyant eggs enhance hydration by increasing the degradation of yolk protein and accumulation of Ca2+ and Mg2+ ions, while adhesive eggs improve adhesiveness and hardness of the egg envelope by producing an adhesive layer and a unique 4th layer to the egg envelope. Based on multiomics analyses and verification tests, we showed that during the process of adaptive radiation, adhesive eggs downregulated the "vitellogenin degradation pathway," "zinc metalloprotease pathway," and "ubiquitin-proteasome pathway" and the pathways of Ca2+ and Mg2+ active transport to reduce their hydration. At the same time, adhesive eggs upregulated the crosslinks of microfilament-associated proteins and adhesive-related proteins, the hardening-related proteins of the egg envelope, and the biosynthesis of glycosaminoglycan in the ovary to generate adhesiveness. These findings illustrate the novel molecular mechanisms associated with hydration and adhesiveness of freshwater fish eggs and identify critical molecular mechanisms involved in the adaptive radiation of endemic East Asian cyprinids. We propose that these key egg attributes may function as "magic traits" in this adaptive radiation.

Characterization of Follicular Atresia Responsive to BPA in Zebrafish by Morphometric Analysis of Follicular Stage Progression

Bisphenol A is an industrial chemical compound, pervasively polluting the environment and diet, classified as an endocrine disruptor because of its interference effects on the endocrine system. In zebrafish, BPA exposure induces follicular atresia. To acquire knowledge on this atretic effect, using a qualitative and quantitative histomorphological approach, we studied zebrafish ovarian follicular stage development in response to low BPA concentrations. Results show that BPA interferes with follicular progression by affecting the previtellogenic and vitellogenic phases. In particular, BPA exposure (i) increases follicular recruitment by acting on primary stage follicles, (ii) forces the follicular transition from stage III to stage IV producing enlarged stage IV follicles, and (iii) induces atresia by producing atretic follicles that are peculiarly enlarged (i.e., big atretic follicles). We suggest that BPA induces atresia by the primary effect on recruitment of stage I follicles. This forces follicular progression and produces stage IV follicles that are peculiarly enlarged that undertake the atretic development.