Centromere protein B null mice are mitotically and meiotically normal but have lower body and testis weights.

CENP-B is a constitutive centromere DNA-binding protein that is conserved in a number of mammalian species and in yeast. Despite this conservation, earlier cytological and indirect experimental studies have provided conflicting evidence concerning the role of this protein in mitosis. The requirement of this protein in meiosis has also not previously been described. To resolve these uncertainties, we used targeted disruption of the Cenpb gene in mouse to study the functional significance of this protein in mitosis and meiosis. Male and female Cenpb null mice have normal body weights at birth and at weaning, but these subsequently lag behind those of the heterozygous and wild-type animals. The weight and sperm content of the testes of Cenpb null mice are also significantly decreased. Otherwise, the animals appear developmentally and reproductively normal. Cytogenetic fluorescence-activated cell sorting and histological analyses of somatic and germline tissues revealed no abnormality. These results indicate that Cenpb is not essential for mitosis or meiosis, although the observed weight reduction raises the possibility that Cenpb deficiency may subtly affect some aspects of centromere assembly and function, and result in reduced rate of cell cycle progression, efficiency of microtubule capture, and/or chromosome movement. A model for a functional redundancy of this protein is presented.

Expression of FGF2 and TGFalpha and testis morphology during testicular hypertrophy subsequent to hemicastration in the neonatal boar.

The objective was to ascertain fibroblast growth factor-2 (FGF2), epidermal growth factor (EGF), and transforming growth factor-alpha (TGFalpha) mRNA expression and testis morphology during accelerated testicular growth after hemicastration in the neonatal boar. On Day 10 after birth (Day 0), boars were assigned to control (n = 28), no treatment; hemicastrated (n = 28), left testis removed. The right testis in both groups (n = 7) was removed on Days 5, 10, 15, and 20. Expression of mRNA for FGF2, EGF, and TGFalpha was determined by qRT-PCR using TaqMan. Testicular morphology was determined on Day 15. On Day 10, hemicastrated boars had a greater (P = 0.01) testis weight (6.2 +/- 0.8 g; mean +/- SEM) than controls (4.3 +/- 0.4 g) and on Day 15 testis weight in hemicastrated boars (8.8 +/- 0.8 g) was twice (P < 0.01) that of control boars (4.2 +/- 0.3 g). Seminiferous tubule volume was approximately doubled in hemicastrated boars (P < 0.01) and was associated with an increase (P < 0.01) in Sertoli cell number. Interstitial compartment volume was greater (P < 0.01) in hemicastrated boars. Leydig cell numbers were similar (P = 0.14) but volume was greater (P < 0.01) for hemicastrates. There were no differences (P > 0.05) between control and hemicastrated boars in TGFalpha or FGF2 expression on Day 5 or Day 10, and EGF was not detected. It was concluded that upregulation of TGFalpha or FGF2 expression is not a pre-requisite for enhanced testicular growth and increased Sertoli cell proliferation that occurs subsequent to hemicastration in the neonatal boar.

Hormonal control of spermatogenesis.

FSH and testosterone (T) secretion are essential for the successful completion of spermatogenesis. Because there are no receptors for FSH or testosterone on germ cells, there are intermediate steps in this action, the nature of which are unknown. However, as the Sertoli cell contains receptors for both FSH and T, it is likely that these hormones exert their influence on germ cells by modulating Sertoli cell function. Both FSH and T exert synergistic actions on germ cells, but T has a specific action on the later stages of spermatid maturation. FSH, by its ability to stimulate Sertoli cell mitosis during testicular development, can influence the spermatogenic capacity of the adult testis.

Testosterone promotes the conversion of round spermatids between stages VII and VIII of the rat spermatogenic cycle.

Several spermatogenic cell types have been reported to be responsive to testosterone (T) in vivo. We have proposed that the principal action of T is to facilitate the maturation of round to elongated spermatids during spermiogenesis. To identify T-dependent cell types during spermiogenesis, round spermatid populations were counted using stereological techniques in adult rats after T withdrawal and replacement. The number of round spermatids per testis in stages I-III, IV-VI, VII, and VIII of the spermatogenic cycle were determined and, based on the known duration of each stage, the hourly production rates of round spermatid populations calculated. Sprague-Dawley rats received 3 cm T and 0.4 cm estradiol implants (TE treatment) for 11 weeks to suppress LH, testicular T levels, and spermatogenesis. To restore sperm production, high-dose T (24 cm) implants were then given, and animals were perfused 0, 2, 4, and 7 days later. Total testicular T levels were suppressed to 2.9% of control levels by TE treatment and significantly increased (P < 0.05) after 2 days of high-dose T, to remain between 7-12% of control. The hourly production rates of round spermatids between stages I and VII were suppressed to 29-35% of control by TE treatment and remained unchanged by high-dose T administration. Stage VIII round spermatid hourly production rates however, were markedly reduced to 5% of control by TE treatment and increased significantly (P < 0.05) to 27% of control after 4 days of high-dose T. The efficiency of conversion of spermatids through spermiogenesis was estimated from the ratios of the hourly production rates of successive spermatid groups. The conversion of spermatids between stages I-VII of the cycle did not differ from control regardless of the treatment. However, the conversion of round spermatids between stages VII and VIII was markedly suppressed to 16% of control by TE treatment and was then normalized after 4 days of high-dose T administration. We conclude that the conversion of round spermatids between stages VII and VIII is a highly T-dependent step during spermiogenesis.

The effects of recombinant follicle-stimulating hormone on the restoration of spermatogenesis in the gonadotropin-releasing hormone-immunized adult rat.

The role of FSH in spermatogenesis is unclear as testosterone alone has been reported to be sufficient in the gonadotropin-deficient rat. This study examined the effects of recombinant FSH on the restoration of spermatogenesis after gonadotropin withdrawal by GnRH immunization. Adult Sprague-Dawley rats received GnRH immunogen (100 micrograms, sc, every 4 weeks) to induce gonadotropin deficiency, with severe spermatogenic regression occurring by 12 weeks. Recombinant human FSH was then given (10 or 50 IU/kg, sc, daily) for 7, 14, and 21 days, with data from both dosages combined in the analyses. Testes were perfusion fixed, and germ cell numbers were quantified by the optical disector technique. After 7 days of FSH, testis weight significantly increased by 43% (P < 0.01), with no further increases at 14 and 21 days. GnRH immunization severely reduced germ cell numbers, which were then significantly (P < 0.05) restored in all cell types, except elongated spermatids, by 7 days of FSH; type A spermatogonia (45%-->61% of control), type B spermatogonia/preleptotene spermatocytes (46%-->65%), leptotene/zygotene spermatocytes (39%-->55%), pachytene spermatocytes in stages I-VIII (11%-->30% control) and IX-XIV (4.3%-->22% control), and round spermatids in stages I-VIII (1.4%-->4.4% control). Prolonged FSH treatment did not further increase type A spermatogonial or pachytene spermatocyte number, whereas round spermatids increased to a peak of 12.8% of the control value. At no stage did FSH increase elongated spermatid numbers above 1% of the control level. The incorporation of bromode-oxyuridine into spermatogonial and early spermatocyte nuclei did not change after GnRH immunization or FSH treatment. Sertoli cell number was not altered by any treatment; however, Sertoli cell nuclear volume was significantly decreased from the control value by GnRH immunization (142 +/- 9 vs. 455 +/- 22 microns 3; P < 0.01) and increased after 7 and 14 days of FSH treatment to 212 +/- 10 and 259 +/- 24 microns 3, respectively. FSH treatment restored serum inhibin levels to normal, but did not increase serum or testicular androgen levels. We conclude that recombinant FSH partially restores spermatogenesis in the gonadotropin-deficient rat by increasing the number of spermatogonia and promoting subsequent maturational steps up to the round spermatid stage. Spermatid elongation was not restored by FSH, indicating the need for an additional factor(s), most likely testosterone.

Inhibition of 5 alpha-reductase activity impairs the testosterone-dependent restoration of spermiogenesis in adult rats.

Testosterone (T) is required for spermatogenesis, particularly in the conversion of round spermatids between stages VII and VIII of spermatogenesis. T is generally thought to be the major androgen involved in adult spermatogenesis due to the high local concentration within the testis, whereas its more potent 5alpha-reduced metabolite dihydrotestosterone (DHT) is thought to be the active androgen in peripheral tissues. The current study investigated whether 5alpha-reduction of T to DHT is involved in the restoration of spermiogenesis in vivo in a setting in which testicular T levels were markedly reduced. Adult male rats were given 3-cm T plus 0.4-cm estradiol implants for 9 weeks to suppress serum LH and testicular T levels and thereby inhibit spermatogenesis. Increasing doses of T (3-, 6-, 10-, and 24-cm implants) were then given for 4 days to restore spermatogenesis in the presence or absence of a 5alpha-reductase inhibitor (L685,273). The hourly production rates of round spermatids in stages I-III, IV-VI, VII, and VIII were assessed using stereological techniques, and the conversion of round spermatids between stages VII and VIII was then assessed as an index of androgen action on spermiogenesis. Testicular androgen levels were measured by HPLC and RIA. The 5alpha-reductase inhibitor significantly suppressed (P < 0.05) the hourly production rate of round spermatids at the 3- and 6-cm T doses, but not at the 10- and 24-cm doses. The conversion of round spermatids between stages VII and VIII was suppressed (P < 0.05) by the inhibitor only at the 3- and 6-cm doses. The 5alpha-reductase inhibitor had no effect on testicular T levels, but suppressed (P < 0.05) DHT levels at the 6-, 10-, and 24-cm doses. We conclude that the 5alpha-reduction of T is involved in the restoration of spermiogenesis at the lower administered doses of T and that these data are the first description of a role for 5alpha-reduced androgens in adult spermatogenesis.

Quantitative cytological studies of spermatogenesis in intact and hypophysectomized rats: identification of androgen-dependent stages.

A stereological study of the numbers of germ cells in various stages of spermatogenesis was undertaken in testosterone-treated intact and hypophysectomized (HPX) rats. Adult Sprague-Dawley rats were given testosterone by Silastic implants, which either inhibited (3-cm length) or partially maintained (10 cm) spermatogenesis over a 13-week period. The numbers of nuclei of the various germ cell categories (spermatogonia, spermatocytes, and round spermatids) in the testes were estimated by profile counting and measurement of nuclear diameter. The numbers of elongated spermatids were determined separately in testicular homogenates. Testis weight, seminiferous tubule volume, and tubule diameter were significantly decreased in intact rats with 3- and 10-cm testosterone implants and in HPX rats, although they were partially maintained in groups with 10-cm implants compared to those in groups with 3-cm implants (P less than 0.05). The effect of 3-cm testosterone implants in the intact group was to suppress the number of spermatogonia to 57%, reduce the conversion of spermatogonia to spermatocytes to 85%, and reduce the conversion of round to elongated spermatids to 19% of the control value. This latter effect was largely overcome with 10-cm testosterone implants. In HPX rats, only 10-cm implants were effective in maintaining the conversion of round spermatids to elongated spermatids. However, testosterone alone was less effective in maintaining the conversion of spermatocytes to round spermatids, suggesting that a pituitary factor, probably FSH, was involved. It is concluded that testosterone has a major effect on the conversion of round to elongated spermatids. The conversion of spermatogonia to spermatocytes and the conversion of spermatocytes to round spermatids depend on the synergistic action of both FSH and testosterone. However, the effect of FSH is greatest on the conversion of spermatocytes to spermatids, i.e. meiosis.

Analysis of the testicular phenotype of the follicle-stimulating hormone beta-subunit knockout and the activin type II receptor knockout mice by stereological analysis.

This study evaluated the role of FSH and activin A on testicular function using quantitative stereological analysis of testicular cell types in mice with targeted disruption of genes encoding the FSH beta-subunit and the activin type IIA receptor (ActRIIA). Using the optical dissector technique, the numbers of Sertoli cells and germ cells per testis were determined. Testis weights in homozygous males lacking the FSHbeta gene or the ActRIIA gene were decreased approximately 60% compared with wild-type or respective heterozygotes. Sertoli cell numbers decreased in both homozygous mice by 30-39%, and there was a comparable decline in germ cell numbers in both models. The degree of germ cell attrition increased in the later stages of spermatogenesis from a 46% reduction of spermatogonia to a 60% decrease in round spermatids. As the FSH levels are decreased in both models, the cellular lesion in both is most likely due to the FSH deficiency. Although the decrease in the Sertoli cell complement represents one cause of lower germ cell numbers, the ability of Sertoli cells to nurture germ cells is compromised by the lower FSH levels, as shown by a decrease in the round spermatid to Sertoli cell ratios in both homozygous models. We conclude that the defects in FSH beta-subunit gene knockout and ActRIIA knockout mice are related to diminished FSH action on both Sertoli cell proliferation and the capacity of Sertoli cells to nurture germ cells.

An age-related ovarian phenotype in mice with targeted disruption of the Cyp 19 (aromatase) gene.

With the development of a mouse model of estrogen insufficiency due to targeted disruption of the aromatase gene [the aromatase knockout (ArKO) mouse], a new opportunity exists to examine the role of estrogen in ovarian follicular development. Ovaries and serum were collected from wild-type, heterozygous, and ArKO mice at 10-12 and 21-23 weeks and 1 yr of age. The ovaries were assessed histologically and stereologically, with primary, secondary, and antral follicles and corpora lutea counted. The uteri were hypoestrogenic, and serum levels of LH and FSH in ArKO females were elevated above those in heterozygote and wild-type animals at all ages studied. Although estrogen was not a prerequisite for reinitiation of follicle growth, there was a block of follicular development, and no corpora lutea were present in ArKO ovaries. Thus, the ArKO mouse was infertile as a consequence of disrupted folliculogenesis and a failure to ovulate. Hemorrhagic cystic follicles were present by 21-23 weeks of age. The ovarian phenotype degenerated with age, such that by 1 yr there were no secondary or antral follicles, and the primary follicles present were atretic. Extensive interstitial tissue remodeling occurred, exemplified by an influx of macrophages and collagen deposition, coincident with the loss of follicles. In conclusion, the ovarian environment in ArKO mice does not allow the characteristic development of follicles that culminates in ovulation and demonstrates an in vivo requirement of estrogen for normal ovarian function in the mouse.

Male reproductive phenotypes in double mutant mice lacking both FSHbeta and activin receptor IIA.

Activins are known to signal through two serine/threonine kinase type II receptors. Activin receptor IIA is widely expressed in the male reproductive axis, including the pituitary and testis. Our previous studies using gene knockout mice have confirmed the essential in vivo role of activin receptor IIA in FSH homeostasis. Activin receptor IIA-null male mice are fertile, have suppressed pituitary and serum FSH levels, and demonstrate a decrease in testis size as a result of reduced Sertoli cells and germ cells. Similarly, FSHbeta null male mice are fertile despite reduced testis size and Sertoli cell number. To define the direct roles of activin receptor IIA signaling locally in the testis, independent of its effects on FSH homeostasis, we generated double mutant mice lacking both activin receptor IIA and FSH by a genetic intercross and analyzed the male reproductive phenotypes. The double mutant male mice lacking both FSH and activin receptor IIA are fertile, demonstrate no significant reduction in testis size, and produce small litters compared with mice lacking either FSH or activin receptor IIA alone. Histological analyses of the testes from double mutant mice revealed the presence of normal stages of spermatogenesis. However, there was a significant reduction in the epididymal sperm number compared with that of the individual mutants. Northern blot analyses of total RNA from testes of double mutants did not reveal transcriptional up-regulation of activin receptor IIB, the other activin type II receptor. Although RNA expression profiles of many testis cell-specific markers are unaltered, stereological analysis of the testes from double mutants indicates that there was a reduction in type A and I spermatogonial number compared with that observed in individual mutants. Our results provide in vivo genetic evidence to demonstrate that activin receptor IIA signaling plays an important local role within the testis, independent of its actions via FSH homeostasis in the pituitary.

Stereological evaluation of human spermatogenesis after suppression by testosterone treatment: heterogeneous pattern of spermatogenic impairment.

Testosterone (T) treatment suppresses gonadotropin levels in normal men and is a promising reversible contraceptive that induces azoospermia in approximately 70% of subjects and oligospermia in the remainder; however, the basis of this variable response is unclear. This study aimed to investigate this reported variable response by examining the spermatogenic process and quantitating germ cell number in men after T-induced gonadotropin withdrawal. Ten normal fertile men (31-46 yr), already planning to undergo vasectomy, either received T enanthate (200 mg, i.m., weekly) for 19-24 weeks (n = 5; TE group) or proceeded directly to surgery (n = 5; controls), at which time a unilateral testicular biopsy was taken, and germ cell numbers were estimated using the optical disector stereological method. In response to TE treatment, serum T levels rose 2-fold, and FSH/LH levels became undetectable. Sperm counts fell to azoospermia in 4 men and to 21 million/mL in the fifth man. The mean number of type A spermatogonia per 100 Sertoli cells was unchanged, but type B spermatogonia fell markedly to 10% of the control values, and later germ cell types decreased to 11-18% of the control values. The pattern of germ cell suppression varied widely and showed no relationship with sperm count or the time to azoospermia. Despite the presence of elongated spermatids (1.4-20% of the control), four men remained azoospermic. Two TE subjects with similar early germ cell complements and elongated spermatid numbers had sperm counts of zero and 21 million/mL; the latter man demonstrated marked variability in germ cell numbers between adjacent tubules. We conclude that 1) the principal spermatogenic lesion in TE-treated men is the marked (90%) inhibition of type A-->B spermatogonial maturation. Other sites are also affected, particularly the release and/or survival of elongated spermatids during transit; and 2) a steady state in germ cell number may not be established even after 4-5 months of TE treatment. The findings suggest that TE treatment does not adequately or consistently withdraw hormonal support for spermatogenesis, leading to variable between- and within-individual patterns of germ cell suppression.

Impairment of spermatogonial development and spermiation after testosterone-induced gonadotropin suppression in adult monkeys (Macaca fascicularis).

Human male hormonal contraceptive regimens do not consistently induce azoospermia, and the basis of this variable response is unclear. This study used nine adult macaque monkeys (Macaca fascicularis) given testosterone (T) implants for 20 weeks to study changes in germ cell populations in relation to sperm output. Germ cell numbers were determined using the optical disector stereological method. Four animals achieved consistent azoospermia (azoo group), whereas five animals did not (nonazoo group). T-induced gonadotropin suppression in all animals decreased A pale (Ap) spermatogonia to 45% of baseline within 2 weeks, leading to decreased B spermatogonia (32--38%) and later germ cells (20--30%) after 14 and 20 weeks. Though the reduction in later germ cell types could be primarily attributed to the loss of spermatogonia, the data suggested that some cells were lost during the spermatocyte and spermatid phase of development. B spermatogonial number was more markedly suppressed in azoospermic animals, compared with the nonazoo group, as was the conversion ratio between Ap and B spermatogonia. Abnormal retention of elongated spermatids (failed spermiation) was also prominent in some animals after long-term T administration. We conclude that: 1) the variable suppression of sperm output is attributed to the degree of inhibition of germ cell development from type B spermatogonia onwards, and this is related to the degree of FSH suppression; and 2) inhibition of Ap and B spermatogonial development and of spermiation are the major defects caused by long-term T administration to monkeys.

Resistance of the dentate gyrus to induced apoptosis during ageing is associated with increases in transforming growth factor-beta1 messenger RNA.

Up-regulation of endogenous neurotrophic factors may protect against apoptosis during ageing. Recent studies showed that the expression of several neurotrophic factors increased with age in specific regions of the rat brain. Previously, we showed that removal of trophic adrenal steroids by adrenalectomy induced apoptosis in the dentate gyrus of adult rats, which was accompanied by increased expression of transforming growth factor-beta1 (TGF-beta1) messenger RNA. In this study, we compared the relative densities of apoptotic cells in the dentate gyrus with TGF-beta1 messenger RNA expression in virgin male Fischer 344 rats ranging from 2 to 26 months of age across three treatment groups: adrenalectomy, adrenalectomy with corticosterone replacement, or sham operation. Seven days after adrenalectomy an increase in the density of apoptotic cells was observed in rats of all age groups compared with sham-operated and corticosterone-treated groups. By in situ hybridisation, the glial messenger RNAs, TGF-beta1 and glial fibrillary acidic protein as a marker of ageing, increased following adrenalectomy in the dentate gyrus in rats of all ages compared with control groups. Interestingly, within adrenalectomy groups, both the number and density of apoptotic cells decreased significantly by 6-8 months with a further decrease at 24-26 months of age. Furthermore, the amount of apoptosis corresponded to changes in TGF-beta1 expression, notably in: (i) adrenalectomised rats showing a significant inverse correlation and (ii) 24-26-month-old rats with the lowest induced apoptosis showing increased expression at the time of adrenalectomy. These studies show that resistance to adrenalectomy-induced apoptosis in the dentate gyrus is associated with increases in TGF-beta1 messenger RNA expression. Furthermore, the endogenous up-regulation of neurotrophic factors, such as the increase in TGF-beta1 expression in the oldest rats, suggests that the aged brain may have compensatory mechanisms, which protect against apoptosis.

Morphological and functional characteristics of rat Leydig cells isolated on Percoll gradients: is Leydig cell heterogeneity in vitro an artifact?

Rat testicular intertubular cells have been isolated on Percoll density gradients. Detailed light and electron microscopic studies have determined the sedimentation positions for Leydig cells, macrophages, fibroblasts, endothelial cells, germ cells and residual bodies. Stereological techniques have been utilized to determine the number of cells in the region of the gradient where Leydig cells sediment. Morphologically intact Leydig cells were present in the more dense region of the gradient (1.0590-1.0900 g/ml), and they responded to hCG stimulation with an 11-fold increase in testosterone production and contained LH/hCG receptors. Leydig cells in the less dense region of the gradient (1.0440-1.0589 g/ml) secreted less testosterone and contained less hCG receptors than those obtained from denser regions. However, the morphological studies described herein provide evidence for the first time that the majority of these less functional 'Leydig cells' from the lighter region of the gradients do not contain a nucleus and represent pieces of Leydig cell cytoplasm with variable size, shape and complement of organelles.

Inhibins, activins and follistatin: actions on the testis.

While the early studies of the inhibins, activins and follistatins concentrated on their role as endocrine regulators of FSH secretion, recent data has emphasized the local actions of the activins and follistatin. Inhibin, through its capacity to suppress FSH secretion can modulate numerous processes within the testis. However, to date, evidence to support a local role for inhibin is limited. In contrast, activin and its binding protein follistatin are produced by a large number of cell-types within the testis raising the possibility of a range of paracrine and autocrine actions. These include the modulation of androgen production, influence on the proliferation of Sertoli cells and germ cells as well as the capacity to influence the structural and functional features of mitochondria within germ cells. Some of these actions are carefully controlled in a temporal relationship during the development of testicular function in the rat in which there is no separation in time between birth and the onset of spermatogenesis. Given the range of actions of activin in different cell-types, recognition of systems that are designed to modulate its actions are crucial in enhancing our understanding of how these many roles can be compartmentalized.

The roles of activins, inhibins and estrogen in early committed follicles.

The hypothesis that activin and inhibin are autocrine/paracrine mediators of ovarian folliculogenesis has a solid basis. In mouse and rat models, granulosa cells (GC) of committed follicles express mRNA and protein for the activin/inhibin subunits and mRNA for the activin receptors (type I and II). Dimeric inhibin-A and -B are produced by postnatal ovarian cell dispersates and (GC) in culture. Similar levels of inhibin-A and -B are produced by postnatal ovarian cells, but thereafter as the ovary develops, inhibin-A becomes the predominant form. Activin was more effective than transforming growth factor-beta (TGF-beta) in enhancing follicle stimulating hormone (FSH)-stimulated inhibin production by ovarian cells. Evidence for a local regulatory role of estrogen in the ovary is also accumulating. Murine models of estrogen receptor (ERalpha or ERbeta) disruption produce mice with abnormal ovarian phenotypes. Female mice, which lack the capacity to produce estrogen (ArKO mice), have arrested folliculogenesis, no corpora lutea, elevated levels of luteinising hormone (LH), FSH and testosterone and are infertile. These data are consistent with autocrine/paracrine actions of activin in the early growth of committed follicles and estrogen in follicular maturation.

The ovarian phenotype of the aromatase knockout (ArKO) mouse.

Targeted disruption of exon 9 of the cyp19 gene gives rise to a non-functional aromatase enzyme incapable of converting androgens to oestrogens. The aromatase knockout (ArKO) mouse is, thus, characterised by a dysfunctional pituitary-gonadal axis, which manifests in non-detectable levels of oestrogen in serum. These mice also exhibit elevated levels of circulating gonadotrophins (luteinising hormone (LH) and follicle stimulating hormone (FSH)) and testosterone. The ArKO mouse is infertile due to folliculogenic disruption and a failure to ovulate. The age-dependent ovarian phenotype revealed a block in follicular development at the antral stage and a complete absence of corpora lutea. By 21-23 weeks of age haemorrhagic cystic follicles were present and by 1 year there were abnormal follicles, an absence of secondary and antral follicles and atretic primary follicles. Interstitial tissue remodelling was extensive and exemplified by an increase in collagen deposition and an influx of macrophages, coincident with the loss of follicles. In mice, maintained on a soy-free and, thus, phytoestrogen-free diet, the ovarian phenotype was accelerated and exacerbated. In conclusion, the ovarian phenotype of the ArKO mouse can be attributed to the altered hormonal environment brought about by the absence of aromatase and the failure of androgens to be converted to oestrogens in the presence of elevated gonadotropins.

Aromatase-deficient (ArKO) mice accumulate excess adipose tissue.

Aromatase is the enzyme which catalyses the conversion of C19 steroids into C18 estrogens. We have generated a mouse model wherein the Cyp19 gene, which encodes aromatase, has been disrupted, and hence, the aromatase knockout (ArKO) mouse cannot synthesise endogenous estrogens. We examined the consequences of estrogen deficiency on accumulation of adipose depots in male and female ArKO mice, observing that these animals progressively accrue significantly more intra-abdominal adipose tissue than their wildtype (WT) litter mates, reflected in increased adipocyte volume and number. This increased adiposity was not due to hyperphagia or reduced resting energy expenditure, but was associated with reduced spontaneous physical activity levels, reduced glucose oxidation, and a decrease in lean body mass. Elevated circulating levels of leptin and cholesterol were present in 1-year-old ArKO mice compared to WT controls, as were elevated insulin levels, although blood glucose was unchanged. Associated with these changes, the livers of ArKO animals were characterised by a striking accumulation of lipid droplets. Our findings demonstrate an important role for estrogen in the maintenance of lipid homeostasis in both males and females.

Theory and practice of stereological techniques applied to the estimation of cell number and nuclear volume in the testis.

The historical background to contemporary approaches to the estimation of cell/nuclear number and volume in the testes is reviewed. The limitations of older geometric model-based approaches to the estimation of cell/nuclear number are discussed, and the need for absolute estimates of cell number rather than ratio estimates is examined. The physical and optical disector approaches to the direct estimation of numerical density and, hence, absolute cell number are presented together with data illustrating their operational efficiency in the testis. New approaches to the direct estimation of nuclear/cell volume, using the point-sampled intercept family of methods, are presented and illustrated, using the example of the Sertoli cell nucleus. The use of both classical transverse and the newer vertical section approaches is explored. Estimation of Sertoli cell/nuclear volume in the volume (point-sampled intercept procedure) and number (nucleator and rotator methods) distributions on both conventional transverse and vertical sections is discussed. The use of transverse sections of the testis is shown to produce a consistent bias in the estimation of Sertoli cell nuclear volume in 120-day-old animals, with all the estimators. Comparison of the Sertoli cell nuclear volume (measured on vertical sections) in the volume and number-weighted distribution suggests a coefficient of variation of volume in the number distribution of 0.4-0.5, suggesting either a random or stage-dependent variation in Sertoli cell nuclear size which requires further exploration.

Microspectrofluorometric characterization of amine accumulation proximal to lateral hypothalamic lesions.

Microspectrofluorometry was employed to identify the spectral characteristics of the formaldehyde-induced fluorophore derived from amine accumulation proximal to the site of 6-hydroxydopamine injection or radiofrequency lesions in the lateral hypothalamus of Sprague-Dawley rats. The excitation and emission spectra of the accumulation were consistent with that of catecholamines in models subjected to similar formaldehyde treatment. These results indicate that while biochemical assay technique may not permit the quantification of amine accumulations, these areas do in fact represent degeneration associated increases in catecholamines which may be of functional significance.