Impact of Neonatal Hypothyroidism on Leydig Cell Number, Plasma, and Testicular Interstitial Fluid Sex Steroids Concentration

Maran, R. R. M.; Ravichandran, K.; Arunakaran, J.; Aruldhas, M. M.

doi:10.1081/erc-100107175

Cited by 21 publications

(22 citation statements)

References 42 publications

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“…Recent studies showed that neonatal hypothyroidism decreased the Leydig cell number and increased the mesenchymal=peritubular cells. The opposite trend was observed in T3-induced hyperthyroid rats [68,72,95]. These observations suggest that T3 stimulates the differentiation of mesenchymal cells into Leydig cells.…”

Section: Thyroid Hormones and Leydig Cell Numbermentioning

confidence: 57%

“…Kalland et al [48] and Cristovao et al [32] found no change in serum testosterone in prepubertal and adult hypothyroid rats, but 376 R. R. M. Maran most reports showed serum T and E2 levels to be low in hypothyroid rats and rams, while an opposite effect was observed in hyperthyroid animals [15, 24-26, 35, 63, 67, 68, 85, 98]. Recently, we reported that low levels of T, DHT, and E2 were found in the plasma and testicular interstitial fluid (TIF) of hypothyroid rats whose hypothyroidism was induced neonatally [68]. Progesterone levels were also decreased in the TIF, while plasma progesterone levels depended on the duration of hypothyroidism [68].…”

Section: Serum Sex Steroids Under Altered Thyroid Statusmentioning

confidence: 99%

“…Recently, we reported that low levels of T, DHT, and E2 were found in the plasma and testicular interstitial fluid (TIF) of hypothyroid rats whose hypothyroidism was induced neonatally [68]. Progesterone levels were also decreased in the TIF, while plasma progesterone levels depended on the duration of hypothyroidism [68]. Transient neonatal hypothyroidism had unaltered serum and LH-induced androstenedione, progesterone, 17-OH progesterone, and T secretion by whole testis [28,38,50,73], but a decrease in LH-induced T, androstenedione, progesterone, and 17-OH progesterone production by Leydig cells was observed [38,73].…”

Section: Serum Sex Steroids Under Altered Thyroid Statusmentioning

confidence: 99%

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Thyroid Hormones: Their Role in Testicular Steroidogenesis

Maran

2003

Archives of Andrology

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Section: Thyroid Hormones and Leydig Cell Numbermentioning

confidence: 57%

Section: Serum Sex Steroids Under Altered Thyroid Statusmentioning

confidence: 99%

Section: Serum Sex Steroids Under Altered Thyroid Statusmentioning

confidence: 99%

See 1 more Smart Citation

Thyroid Hormones: Their Role in Testicular Steroidogenesis

Maran

2003

Archives of Andrology

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“…Nevertheless, a critical development was the report that thyroid hormone receptors are present in high quantities in neonatal Sertoli cells, indicating that the developing Sertoli cell and testis may be an important thyroid hormone target, even though the adult testis is less dependent (Palmero et al 1988;Jannini et al 1990). For example, hypothyroidism in the neonatal rat impairs testicular growth, germ cell maturation, seminiferous tubule lumen formation, and other developmental events (Palmero et al 1989;Francavilla et al 1991;De Franca et al 1995;Maran et al 2001). Despite the inhibitory effects of hypothyroidism on testicular development, rat pups that are made hypothyroid by the administration of the goitrogen 6-propyl-2-thiouracil (PTU) from birth to day 25 postnatal and then allowed to recover back to a euthyroid state have increases in adult testis size and daily sperm production (DSP) of 80% and 140%, respectively, compared with control animals .…”

Section: Thyroid Hormone Regulates Early Sertoli Cell Developmentmentioning

confidence: 98%

Understanding the role of thyroid hormone in Sertoli cell development: a mechanistic hypothesis

2005

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More than a decade of research has shown that Sertoli cell proliferation is regulated by thyroid hormone. Neonatal hypothyroidism lengthens the period of Sertoli cell proliferation, leading to increases in Sertoli cell number, testis weight, and daily sperm production (DSP) when euthyroidism is re-established. In contrast, the neonatal Sertoli cell proliferative period is shortened under hyperthyroid conditions, but the mechanism by which thyroid hormone is able to negatively regulate Sertoli cell proliferation has been unclear. Recent progress in the understanding of the cell cycle has provided the opportunity to dissect the molecular targets responsible for thyroid-hormone-mediated effects on Sertoli cell proliferation. In this review, we discuss recent results indicating a critical role for the cyclin-dependent kinase inhibitors (CDKI) p27(Kip1) and p21(Cip1) in establishing Sertoli cell number, testis weight, and DSP, and the ability of thyroid hormone to modulate these CDKIs. Based on these recent results, we propose a working hypothesis for the way in which thyroid hormone regulates the withdrawal of the cell cycle by controlling CDKI degradation. Finally, although Sertoli cells have been shown to have two biologically active thyroid hormone receptor (TR) isoforms, TRalpha1 and TRbeta1, experiments with transgenic mice lacking TRalpha or TRbeta illustrate that only one TR mediates thyroid hormone effects in neonatal Sertoli cells. Although significant gaps in our knowledge still remain, advances have been made toward appreciation of the molecular sequence of events that occur when thyroid hormone stimulates Sertoli cell maturation.

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“…This differentiation involves the induction of the cyclin-dependent kinase inhibitor p27 kip1 by the thyroid hormone (T3) (Holsberger et al, 2005a;Holsberger et al, 2003). Hypothyroidism in the neonatal rat impairs testicular growth, germ cell maturation, seminiferous tubule formation and other differentiation processes (De Franca et al, 1995;Maran et al, 2001). Despite the inhibitory effects induced by goitrogen 6-propyl-2-thiouracil (PTU) when administered from birth to postnatal day 25, a dramatic recovery of thyroid hormone levels to the euthyroid state after postnatal day 45 has been observed (Cooke et al, 1991).…”

Section: Introductionmentioning

confidence: 99%

Propylthiouracil-induced hypothyroidism delays apoptosis during the first wave of spermatogenesis

et al. 2011

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Mammalian germ cell apoptosis plays a key role in controlling the correct number of germ cells supported by Sertoli cells during the fi rst wave of spermatogenesis in mammalian puberty. However, little is known about hormonal factors that could infl uence the rate of germ cell apoptosis during puberty or adulthood. In this work we evaluate germ cell apoptosis under hypothyroidism induced by goitrogen propylthiouracil (PTU) during the fi rst wave of spermatogenesis. Neonatally administered PTU promoted a delay in the differentiation of Sertoli cells as evaluated by the expression of clusterin using immunohistochemistry and RT-PCR. Clusterin had different expression levels in control and PTU-treated animals, but under both conditions the highest levels were found in 35-day-old rats. In addition, clusterin displayed a cytoplasmic localization in control testes, but appeared located in the nucleus in PTU-treated animals. The wave of apoptosis (determined by caspase activity and quantifi cation of apoptotic cells) characteristic of the fi rst round of spermatogenesis was delayed by at least 10 days in these animals. The expression levels of proapoptotic genes like BAX or BAD were different between control and PTU-treated rats; although in both groups the highest level was found at the same age (days). Thus our results indicate that the characteristic pubertal apoptotic wave during rat spermatogenesis is delayed in neonatal hypothyroid rats.

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Impact of Neonatal Hypothyroidism on Leydig Cell Number, Plasma, and Testicular Interstitial Fluid Sex Steroids Concentration

Cited by 21 publications

References 42 publications

Thyroid Hormones: Their Role in Testicular Steroidogenesis

Thyroid Hormones: Their Role in Testicular Steroidogenesis

Understanding the role of thyroid hormone in Sertoli cell development: a mechanistic hypothesis

Propylthiouracil-induced hypothyroidism delays apoptosis during the first wave of spermatogenesis

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