Disruption of estrogen receptor signaling and similar pathways in the efferent ductules and initial segment of the epididymis

Hess, Rex A.

doi:10.4161/21565562.2014.979103

Cited by 38 publications

(25 citation statements)

References 231 publications

(221 reference statements)

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“…Scale bar = 50 μm. AA, ascorbic acid isoprenylation in theca-interstitial cell culture (Ortega et al, 2012;2014). Contrary to this, AA is able to increase androgen production by augmenting luteinizing hormone receptors expression in Leydig cells and stimulating steroidogenic enzymes 3β-hydroxysteroid dehydrogenase, 17β-hydroxysteroid dehydrogenase and StAR protein in the testis (Harikrishnan et al, 2013;Radhakrishnakartha, Appu, & Indira, 2014).…”

Section: Discussionmentioning

confidence: 98%

“…Estrogens mainly play their role through binding to their cytoplasmic receptors (ERS1 or ERS2) forming hormone-receptor complexes that are translocated to the nucleus, where they modulate gene expression (Carreau et al, 2011). Previous studies have demonstrated that ERS1 knockout mice show infertility at adulthood (Shibayama et al, 2001) and fluid accumulation in the testis, an abnormal concentration of sperm and compromised sperm maturation in the caput of epididymis (Hess, 2014). Furthermore, a decreased ERS1 expression is also related to increased sperm abnormalities, decreased sperm motility (Couse & Korach, 1999;Guerra et al, 2016) and reduced sperm counts (Couse & Korach, 1999).…”

Section: Discussionmentioning

confidence: 99%

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Ascorbic acid supplementation ameliorates testicular hormonal signaling, sperm production and oxidative stress in male rats exposed to rosuvastatin during pre‐puberty

Leite

Barros

Martins

et al. 2018

J of Applied Toxicology

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Dyslipidemias are occurring earlier in the population due to the augmentation of obesity. Rosuvastatin reduces cholesterol and triglycerides; however, previous studies have shown that it may affect male reproduction. Ascorbic acid (AA), an antioxidant compound, plays a protective role in the male reproductive system. This study aimed to evaluate whether pre‐pubertal exposure to rosuvastatin may impair testicular structure and antioxidant status in male rats and if supplementation with AA may alleviate these damages. Male rats were randomly divided into six experimental groups (n = 10) on postnatal day (PND) 23 and received the different treatments by gavage from PND 23 to 53. The experimental groups received vehicle (saline solution 0.9%), 3 or 10 mg/kg/day of rosuvastatin diluted in saline solution 0.9%, supplementation with 150 mg/day of AA, 3 mg/kg/day of rosuvastatin in association with 150 mg/day of AA or 10 mg/kg/day of rosuvastatin associated with 150 mg/day of AA. Testicular parameters were assessed on PND 53 and 110. There were diminished androgen receptors staining in the Sertoli cells and increased germ cell death in rosuvastatin‐exposed groups, in both periods. Spermatids showed lower estrogen alpha‐receptors staining in the group exposed to 10 mg of statin at adulthood. There were androgen depletion and increased lipid peroxidation and catalase activity in statin‐exposed groups. Rosuvastatin exposure during pre‐puberty impaired testicular structure, steroid receptor distribution and increased oxidative stress; however, AA was able to ameliorate the impairment provoked by statin exposure.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Ascorbic acid supplementation ameliorates testicular hormonal signaling, sperm production and oxidative stress in male rats exposed to rosuvastatin during pre‐puberty

Leite

Barros

Martins

et al. 2018

J of Applied Toxicology

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“…It is also possible that the stirring or mixing function of efferent ductule cilia is essential for homogenous reabsorption of fluid by the nonciliated cells, as previously predicted. [45][46][47] Additionally we speculate that the near absence of sperm from the epididymis could be caused by impaired fluid flow, an occlusion or a defect in smooth muscle contraction, which may rely upon signaling from the efferent ducts. Irrespective of the contribution of the multiciliogenesis defect, we believe that the primary problem is an accumulation of luminal fluid that reflects both impaired absorption and excess secretion.…”

Section: Discussionmentioning

confidence: 99%

E2f4 and E2f5 are essential for the development of the male reproductive system

2016

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The E2F transcription factors are primarily implicated in the regulation of entry and exit from the cell cycle. However, in vivo studies have established additional roles for E2Fs during organ development and homeostasis. With the goal of addressing the intestinal requirements of E2f4 and E2f5, we crossed mice carrying Vil-cre, E2f4 conditional and E2f5 germline alleles. E2f4 deletion had no detectable effect on intestinal development. However, E2f4f/f;E2f5C/¡;Vil-cre males, but not E2f4f/f;Vil-cre littermates, were unexpectedly sterile. This defect was not due to defective spermatogenesis. Instead, the seminiferous tubules and rete testes showed significant dilation, and spermatozoa accumulated aberrantly in the rete testis and efferent ducts. Our data show that these problems result from defective efferent ducts, a tissue whose primary function is to concentrate sperm through fluid absorption. First, Vil-cre expression, and consequent E2F4 loss, was specific to the efferent ducts and not other reproductive tract tissues. Second, the E2f4f/f;E2f5C/¡;Vil-cre efferent ducts had completely lost multiciliated cells and greatly reduced levels of critical absorptive cell proteins: aquaporin1, a water channel protein, and clusterin, an endocytic marker. Collectively, the observed testis phenotypes suggest a fluid flux defect. Remarkably, we observed rete testis dilation prior to the normal time of seminiferous fluid production, arguing that the efferent duct defects promote excessive secretory activity within the reproductive tract. Finally, we also detect key aspects of these testis defects in E2f5¡/¡ mice. Thus, we conclude that E2f4 and E2f5 display overlapping roles in controlling the normal development of the male reproductive system.

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“…The main source of estrogen in males is the testis; however, the additional presence of P450 aromatase in spermatozoa provides a local source of estrogen in the epididymis (Reviewed in Hess 2014). As the estrogen action in the epididymis was recently reviewed (Hess et al 2011, Hess 2014, this review will focus on androgen regulation. Of note, however, is the notion that the correct balance between androgen and estrogen levels might be of importance for maintaining epididymal functions.…”

Section: Regulation Via Steroid Hormonesmentioning

confidence: 99%

“…Inside the epididymal epithelial cells, testosterone is reduced to more potent dihydrotestosterone (DHT) by 5α-reductases (Robaire & Hamzeh 2011). The main source of estrogen in males is the testis; however, the additional presence of P450 aromatase in spermatozoa provides a local source of estrogen in the epididymis (Reviewed in Hess 2014). As the estrogen action in the epididymis was recently reviewed (Hess et al 2011, Hess 2014, this review will focus on androgen regulation.…”

Section: Regulation Via Steroid Hormonesmentioning

confidence: 99%

Segment-specific regulation of epididymal gene expression

Sipilä¹,

Björkgren²

2016

Reproduction

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The epididymis is necessary for post-testicular sperm maturation. During their epididymal transit, spermatozoa gain ability for progressive movement and fertilization. The epididymis is composed of several segments that have distinct gene expression profiles that enable the establishment of the changing luminal environment required for sperm maturation. The epididymal gene expression is regulated by endocrine, lumicrine, and paracrine factors in a segment-specific manner. Thus, in addition to its importance for male fertility, the epididymis is a valuable model tissue for studying the regulation of gene expression. This review concentrates on recent advances in understanding the androgen, small RNA, and epigenetically mediated regulation of segment-specific gene expression in the epididymis.Reproduction (2016) 152 R91-R99

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Disruption of estrogen receptor signaling and similar pathways in the efferent ductules and initial segment of the epididymis

Cited by 38 publications

References 231 publications

Ascorbic acid supplementation ameliorates testicular hormonal signaling, sperm production and oxidative stress in male rats exposed to rosuvastatin during pre‐puberty

Ascorbic acid supplementation ameliorates testicular hormonal signaling, sperm production and oxidative stress in male rats exposed to rosuvastatin during pre‐puberty

E2f4 and E2f5 are essential for the development of the male reproductive system

Segment-specific regulation of epididymal gene expression

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