David Bunick

A role for oestrogens in the male reproductive system

Oestrogen is considered to be the ‘female’ hormone, whereas testosterone is considered the ‘male’ hormone. However, both hormones are present in both sexes. Thus sexual distinctions are not qualitative differences, but rather result from quantitative divergence in hormone concentrations and differential expressions of steroid hormone receptors. In males, oestrogen is present in low concentrations in blood, but can be extraordinarily high in semen, and as high as 250 pg ml−1in rete testis fluids,, which is higher than serum oestradiol in the female. It is well known that male reproductive tissues express oestrogen receptors, but the role of oestrogen in male reproduction has remained unclear. Here we provide evidence of a physiological role for oestrogen in male reproductive organs. We show that oestrogen regulates the reabsorption of luminal fluid in the head of the epididymis. Disruption of this essential function causes sperm to enter the epididymis diluted, rather than concentrated, resulting in infertility. This finding raises further concern over the potential direct effects of environmental oestrogens on male reproduction and reported declines in human sperm counts,.

Estrogen Receptor α Has a Functional Role in the Mouse Rete Testis and Efferent Ductules

Abstract Previous studies of the estrogen receptor-alpha knockout (αERKO) in the male mouse demonstrate that the rete testis and efferent ductules are targets of estrogen. Because the αERKO mouse lacks a functional estrogen receptor alpha (ERα) throughout development, it was not known whether the morphological and physiological abnormalities observed in the αERKO male were due to developmental defects or to dysfunctions concurrent with the lack of ERα in the tissue. This study was designed to determine if treatment of normal wild-type (WT) mice with the pure antiestrogen, ICI 182,780, (ICI) could reproduce the morphological characteristics seen in αERKO mice. Thirty-day-old male mice were treated for 35 days with either castor oil or ICI. Age-equivalent αERKO mice were used for comparison. Light microscopic examinations of the reproductive tracts revealed dramatic changes in the efferent ductules of treated mice: a 1.7-fold increase in luminal diameter, a 56% reduction in epithelial cell height, a 60% reduction in brush boarder height of nonciliated cells, and an apparent reduction of the number of observable lysosomes and endocytotic vesicles. Testes of ICI-treated mice showed swollen rete testes area (6.5 times larger than control) and a 65% reduction in rete testis epithelium height. However, there were no significant changes in body and testis weights. These results indicate that ER blockage with ICI in WT mice results in morphological changes of the efferent ductules resembling those seen in αERKO siblings of the same age. Based on this study, we conclude that ERα has a functional role in the mouse reproductive tract and the aberrant morphology observed in the efferent ductules of the αERKO mouse is likely the result of a concurrent response to the lack of functional ERα, and not solely due to the lack of ERα during early developmental times.

Oestrogen, its receptors and function in the male reproductive tract - a review.

Oestrogen is synthesized in the male reproductive system by at least three different cell types; Sertoli, Leydig and germ cells. Although testosterone is recognized as the primary sex steroid in man, oestrogen is produced in sizable quantities in the testis, as well as the brain and is found in extremely high concentrations in the semen of several species. The high concentration of oestrogen in rete testis fluid of the rodent is now thought to be derived from the conversion of testosterone to estradiol by P450 aromatase in germ cells of the testis and spermatozoa traversing the reproductive tract. This new major source of oestrogen would target oestrogen receptors in the male reproductive tract, in particular the efferent ductules, which contain the highest concentration of oestrogen receptor-alpha. This recent data raises new hypotheses regarding the role of oestrogen in the function of the male reproductive system. The oestrogen receptor-alpha knockout mouse was used to help define the function of oestrogen in the male. It was found that oestrogen receptor-alpha is essential for fluid reabsorption in the efferent ductules and in the absence of expression the male is infertile.

Estrogen Regulation of Ion Transporter Messenger RNA Levels in Mouse Efferent Ductules Are Mediated Differentially Through Estrogen Receptor (ER) α and ERβ

Abstract Earlier studies have shown that the efferent ductules (ED) of the male mouse are a target for estrogen. The loss of estrogen receptor (ER) function through either knockout technology (αERKO mouse) or chemical interference (pure antagonist, ICI 182 780) results in a failure of a major function of the ED, the reabsorption of testicular fluids. The purpose of this study was to test the hypothesis that estrogen controls fluid (water) reabsorption in the ED by modulating ion transporters important for passive water movement through a leaky epithelium such as the ED. Northern blot analysis was used to detect the mRNA levels for key ion transporters in the following experimental groups: 1) wild-type (WT) control for the 14-day experiment, 2) ERα knockout (αERKO) control for the 14-day experiment, 3) WT treated with ICI 182 780 (ICI) for 14 days, 4) αERKO treated with ICI for 14 days, 5) WT control for the 35-day experiment, and 6) WT treated with ICI for 35 days. Estrogen differentially modulated the mRNA levels of key ion transporters. ERα mediated carbonic anhydrase II mRNA abundance, and there was a decrease in Na+/H+ exchanger 3 mRNA levels in the αERKO that appeared to be a cellular effect and not a direct estrogen effect. The loss of ERα control resulted in an increase in mRNA abundance for the catalytic subunit of Na+-K+ ATPase α1, whereas an increase in the mRNA abundance of the Cl−/HCO3− exchanger and the chloride channel cystic fibrosis transmembrane regulator was significantly ERβ mediated. Our results indicate for the first time that estrogen acting directly and indirectly through both ERα and ERβ probably modulates fluid reabsorption in the adult mouse ED by regulating the expression of ion transporters involved in the movement of Na+ and Cl−.

Isolation and culture of epithelial cells from rat ductuli efferentes and initial segment epididymidis

To improve the study of epithelial function in rat ductuli efferentes (efferent ductules) and initial segment epididymis, we developed a primary cell culture system with modification of the Klinefelter method (1992). The cultured efferent ductal epithelium was grown to confluence and the cells maintained many of the organelles characteristic of these cells in vivo, including dense-staining granules, indented nuclei and apical cilia. Ciliary beat was observed for up to 10 days in culture, Cultured initial segment epithelial cells were elongated and characterized by apical branched microvilli. Electron microscopy revealed intact cell junctions, and endocytotic apparatus and lysosomal granules. Ultrastructurally, the initial segment epithelium contained a well developed Golgi apparatus. For both epithelia, cell characteristics were also confirmed by indirect immunofluorescent staining for cytokeratins 8, 18. Endocytotic activity was detected by the uptake of cationic ferritin at the apical surface and within vesicles. Estrogen receptor and clusterin mRNAs were expressed in the cultured epithelia and no difference was found in their expressions when cultured with or without 10(-9)M 17-beta estradiol. Indirect immunofluorescent staining for clusterin further indicated that this protein was present in the cultures. In conclusion, these in vitro methods will be useful for the investigation of epithelial function in the head of the epididymis.

Testicular Recrudescence in the Male Black Bear (Ursus americanus): Changes in Testicular Luteinizing Hormone-, Follicle-Stimulating Hormone-, and Prolactin-Receptor Ribonucleic Acid Abundance and Dependency on Prolactin

Abstract Testicular recrudescence in male black bears (Ursus americanus) is initiated in January and completed in May. The goals of this study in the black bear were to determine 1) if testicular abundance of LH-receptor (LHr), FSH-receptor (FSHr), and prolactin-receptor (PRLr) mRNA changes during recrudescence; 2) if these changes in mRNA abundance are associated with changes in serum LH, PRL, and testosterone (T) concentrations; and 3) if the spring increase in serum PRL concentrations is required for testicular recrudescence. Serum was obtained monthly from nine male bears for 2 yr, except in July and August. To suppress endogenous PRL, four bears were treated with Parlodel LAR, 50 mg per 70 kg body weight, monthly from January through May, whereas five bears served as controls. Testicular biopsies were obtained in January, March, and May and analyzed for LHr, FSHr, and PRLr mRNA abundance using reverse transcriptase-competitive polymerase chain reaction. The LHr and PRLr mRNA abundance was low in January, increased in March, and remained high in May, whereas the FSHr mRNA abundance remained constant. Serum concentrations of PRL and T increased in March, coincident with the increase in testicular LHr and PRLr mRNA abundance. Suppression of serum PRL concentrations during testicular recrudescence 1) prevented the increase in testicular LHr and PRLr mRNA abundance observed among control bears in March, 2) lowered serum T concentrations in March and April, and 3) resulted in reduced testis size in May. We conclude that testicular LHr and PRLr mRNA are seasonally regulated, and that PRL has a role in testicular recrudescence in the black bear.

Morphological comparison of the testis and efferent ductules between wild‐type and estrogen receptor α knockout mice during postnatal development

Estrogen and the estrogen receptor (ER)α play an important role in the male reproductive tract and in fertility. Previous studies demonstrated that disruption of ERα function resulted in abnormal morphology of the testis and efferent ductules (EDs) of adult mice. However, the effect of a lack of a functional ERα during early postnatal development has not been determined. The present study is an evaluation of morphological changes effected by a lack of ERα in the male reproductive tract during the postnatal period. Age‐equivalent wild‐type and ERα knockout (αERKO) mice at 10, 18, 35 and 60 days of age after birth were used for morphological comparison of the testes and ED. Light microscopic examination of the testes of the αERKO mouse revealed a dramatic dilation of the rete testis as early as 10 days of age, premature lumen formation, reduced epithelial height and greatly dilated lumen of seminiferous tubules as early as 18 days of age. The proximal ED of the αERKO mouse showed lumen dilation, reduction of epithelial height and a decrease of nuclear height as early as 10 days of age. Similar, but somewhat less severe, morphological abnormalities were observed in the distal ED of the αERKO mouse. These results indicate that a lack of functional ERα leads to morphological changes of the testis and ED of the early postnatal developing mouse. Based on these observations, we conclude that ERα plays an important role in normal development of the testis and ED, not only during adulthood but also during the entire postnatal period and presumably during fetal development.

Expression and distribution of canine antimicrobial peptides in the skin of healthy and atopic beagles.

Antimicrobial peptides (AMPs) are small immuno-modulatory proteins important in defense against pathogenic organisms. Defensins and cathelicidin are the most frequently studied human AMPs. An increase in AMPs in atopic humans has been reported recently. Our goals were to determine the distribution of AMPs and evaluate their mRNA and protein expression in non-lesional (Day 0), acute lesional skin (Day 3) and post-challenged skin after resolution of skin lesions (Day 10) using a canine model of atopic dermatitis (AD). All dogs were environmentally challenged for three consecutive days with house dust mite. Clinical evaluation of atopic beagles was performed using a CADESI score at each time point before and after environmental challenge. Skin biopsies were taken from six healthy and seven atopic beagles before and after allergen challenge (Day 0, Day 3 and Day 10). The transcription of canine cathelicidin (cCath) and beta-defensins (cBD)-1, -2 and -3 mRNA was quantified using quantitative-RT-PCR while the protein distribution of cBD2, cBD3 and cCath was detected by indirect immunofluorescence. A significant effect, over-time, was seen in CADESI score in AD beagles with an increase score after challenge (Day 3). Quantitative analysis showed a significant difference in mRNA transcript levels between groups (with atopic dogs having more than controls) for all AMPs but cBD2. No effect over time was evident for either group. No significant differences were seen for the AMP protein patterns of distribution (homogenous distribution). Although, these results showed no differences in AMPs localization after allergen exposure in each group; atopic dogs had a higher mRNA expression of AMPs when compared with healthy dogs, a similar finding to humans.

Estradiol deficiency during development modulates the expression of circadian and daily rhythms in male and female aromatase knockout mice

Gonadal steroids modify the phase, amplitude and period of circadian rhythms. To further resolve the role of estradiol, we examined daily patterns of activity, circadian free running period and behavioral responses to light pulses using aromatase deficient (ArKO) mice. These animals lack the enzyme necessary to produce estradiol. We hypothesized that circulating estrogens during development and adulthood modulate the amount of activity, the temporal relationship of activity patterns relative to a light:dark cycle, and the free running period. Intact and gonadectomized male and female ArKO and wildtype (WT) littermates were used. WT males, but not ArKO males, retained the ability to respond to steroid hormones; the time of activity onset, free running period in constant darkness, and total daily activity were significantly different in gonadectomized compared to intact males. In contrast, gonadectomy did not alter the expression of these variables in ArKO males. ArKO females had a longer free running period in constant darkness compared to WT females regardless of gonadal state. Ovariectomized ArKO females had a significantly delayed activity onset when compared to intact ArKO females and ovariectomized WT females, despite all 3 groups being estrogen deficient. Phase shifts in response to light pulses given at different times of the day revealed an interaction between genotype, sex, and circulating steroids. These results from ArKO animals strongly suggest an organizational effect of estradiol during a critical period of development on the expression of biological rhythms.

Altered mRNA and protein expression of filaggrin in the skin of a canine animal model for atopic dermatitis

BACKGROUND Filaggrin is a structural protein that has attracted increasing interest over the past decade for its role in the pathogenesis of human atopic dermatitis (AD). Null mutations in its sequence are considered risk factors in the development of AD. HYPOTHESIS/OBJECTIVES To investigate canine filaggrin mRNA and protein expression in the skin of atopic beagles with experimentally induced AD compared with breed-matched healthy control dogs. METHODS All dogs were environmentally challenged for 3 days consecutively with allergens to which the atopic dogs had been sensitized. Skin biopsy specimens were taken from six healthy and seven atopic beagles before and after allergen challenge. Canine filaggrin mRNA was measured using quantitative real-time PCR. Indirect immunofluorescence was used to localize the filaggrin protein in canine skin. Analysis of variance with Tukeys multiple comparison test (over-time effect) and unpaired Students t-test (treatment effect) were used. Values of P ≤ 0.05 were considered significant. RESULTS Analysis of variance showed a significantly higher expression of filaggrin mRNA in atopic dogs compared with healthy control dogs (P = 0.004 on day 3 and P = 0.01 on day 10) and a decreased mRNA expression on day 3 in healthy control dogs (effect of time, P = 0.006). On blinded evaluation, filaggrin immunofluorescence was distributed homogeneously in the stratum granulosum and the stratum corneum in healthy dogs. Atopic dogs showed a patchy immunofluorescence pattern, which was exacerbated after environmental challenge. CONCLUSIONS AND CLINICAL IMPORTANCE Altered epidermal filaggrin mRNA expression and protein distribution was detected in this experimental model.