Effect of cell purity, cell concentration, and incubation conditions on rat testis Leydig cell steroidogenesis

An autofluorescence-based isolation of Leydig cells for testosterone deficiency treatment

Effective procedures for the purification of Leydig cells (LCs) can facilitate functional studies and transplantation therapies. However, current methods to purify LCs from testes are still far from satisfactory. Here, we found that testicular autofluorescence existed in the interstitium along with the gradual maturation of LCs from birth to adulthood. These autofluorescent cells were further isolated by fluorescence-activated cell sorting (FACS) and determined to be composed of LCs and macrophages. To further purify LCs, we combined two fluorescence channels of FACS and successfully separated LCs and macrophages. Of note, we confirmed that the obtained LCs not only possessed high purity, viability and quantity but also had intact steroidogenic activity and excellent responsiveness to luteinizing hormone. Moreover, subcutaneous transplantation of isolated LCs could alleviate the symptoms of testosterone deficiency in castrated mice. In summary, we established an effective autofluorescence-based method for isolating LCs. This method will aid in the future success of using LCs for basic and translational applications.

Anterior pituitary cells: getting to know their neighbors

We review in this article recent findings on the effects of cell proximity (nearness to each other) on anterior pituitary cell function in vitro. Important cellular processes, including protein synthesis, basal hormone release, response to hypothalamic regulatory factors and signal transduction can change as a function of the distance between adjacent cells. These findings, together with a growing body of evidence on intrapituitary intercellular interactions, form a basis for proposing a model of anterior pituitary cell regulation. In this scheme extrapituitary, intracellular and intercellular signaling pathways all contribute and interact to control secretory processes in cells.

Isolation and culture of highly enriched populations of Leydig cells from guinea-pig (Cavia porcellus) testes

Leydig cells were isolated from adult male guinea-pig testes using a multi-step procedure involving enzymatic dissociation and Percoll-gradient centrifugation. The following description is the first account of a successful isolation of adolescent guinea-pig Leydig cells. The enriched Leydig-cell preparation routinely isolated from six intact testicles yielded approximately 5.0 x 10(6) +/- 0.7 x 10(6) (+/- SEM) Leydig cells with a viability of 98.0 +/- 0.4% as determined using the trypan-blue exclusion method. The purity of the isolated cell population as assessed by 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) staining averaged 82.5 +/- 0.8%. Under light microscopy, guinea-pig Leydig cells were polyhedral in shape with a large prominent nucleus and a distinct nucleolus. The acidophilic cytoplasm contained numerous lipid-filled vesicles. Ultrastructurally, guinea-pig Leydig cells displayed an eccentrically located ovoid nucleus with dark-staining peripheral heterochromatin. Large quantities of mitochondria, smooth endoplasmic reticulum and particulate-laden lipid droplets were also evident. The steroidogenic potential of the isolated Leydig cells was verified using a maximally stimulating dose of ovine LH (100 ng ml-1) and human CG (200 mIU ml-1). Leydig cells incubated in a shaking (120 cycles min-1) water bath for 3 h at 37 degrees C in capped polypropylene microcentrifuge tubes produced 233 +/- 21 ng and 223 +/- 18 ng testosterone per 1 x 10(6) cells when maximally stimulated with oLH or hCG, respectively. The inclusion of low (1-5 microM) levels of sodium ascorbate during culture enhanced significantly Leydig-cell viability vs. control values.

Elevated concentrations of ascorbate and normoxia suppress testosterone production in cultured guinea pig Leydig cells

In recent years, several metabolic roles have been proposed for vitamin C. Recent information suggests a strong causal relationship between high endogenous levels of ascorbic acid and changes in normal reproductive biology. Using highly enriched populations of guinea pig Leydig cells, we have found that elevated levels (50 to 500 microM) of ascorbate significantly (P < 0.01) depressed testosterone production in a dose-dependent manner while low levels (0 to 10 microM) were without effect. Leydig cells incubated under hypoxic (3% oxygen) culture conditions produced significantly (P < 0.01) more testosterone than similar cells cultured under normoxic (19% oxygen) conditions. The results of this study suggest that high concentrations of ascorbate and normoxic culture conditions suppress testosterone production in isolated Leydig cells. Thus, it would seem that there exists a delicate balance between normal metabolic requirements for vitamin C and excessive ascorbate levels that might alter normal gonadal reproductive events.

Temperature effect on the action of corticotropin-releasing hormone (CRH) on secretion of immunoreactive beta-endorphin (IR beta EP) in TM3 and AtT-20 cell lines

Testicular function is sensitive to chemical and thermal stresses. To investigate the effects of small temperature changes on CRH-stimulated beta EP release, we employed TM3 cells, a mouse prepubertal Leydig cell line that secretes ir beta EP. To monitor beta EP secretion from these cells we used the reverse hemolytic plaque assay. After 3.5 hr incubation of cells with hormone, the EC50 of the CRH dose-response curve at 34 degrees C and 37 degrees C were 0.1 nM and 1 nM, respectively. For comparison, we also investigated the effect of temperature on CRH-stimulated beta EP release from a non-testicular cell line, AtT-20, a mouse anterior pituitary cell line. Using radioimmunoassay to measure ir beta EP levels in the media of AtT-20 cells, the EC50s for the CRH dose-response curve at 34 degrees C and 37 degrees C were 0.2 nM and 2 nM, respectively, at 1 h. After 3.5 h this temperature dependent difference in EC50 was still observed. These results suggest that CRH receptors or post-receptor actions in Leydig cells and anterior pituitary corticotropes are sensitive to small temperature changes.

Altered steroidogenic activity of human granulosa-lutein cells at different cell densities in culture

In the present study, the relationship between human granulosa-lutein cell (hGLC)-plating density and steroidogenic activity was evaluated. Increasing hGLC-plating density 32-fold, from 0.25 x 10(4) to 8 x 10(4) cells/well, was associated with a concomitant increase in the total amount of progesterone (P4), testosterone (T), and estradiol-17 beta (E2) secretion. The daily amount of each steroid (P4, T, and E2) secreted by hGLC at different cell-plating densities was further normalized per 10(3) cells. Thus, an increase in hGLC-plating density from 0.25 x 10(4) to 1 x 10(4) cells/well was associated with approximate increases of 1.3-fold in P4 and 3-fold in T and a 50% decrease in E2 secretion, per 10(3) cells. A further increase in hGLC-plating density, from 1 x 10(4) to 8 x 10(4) cells/well, was associated with a significant decrease of approximately 3.7-fold in P4 and 6-fold in T per 10(3) cells. A similar increase in hGLC-plating density was associated with no change or a 2-fold decrease, per 10(3) cells, in E2 secretion during days 0-3 or days 3-5 of culture, respectively. The P4/E2 ratio was increased and the E2/T ratio decreased with extension of the culture period. These two ratios had a tendency to be altered inversely, concurrent with the increase in cell-plating densities. At 1-2 x 10(4) cells/well, P4/E2 was maximal, whereas E2/T was minimal.(ABSTRACT TRUNCATED AT 250 WORDS)

Sensitivity of Sertoli and Leydig cells to xenobiotics in in vitro models

Different chemicals are known to cause testicular damage in the human male and experimental animals. However, the ability to assess the potential and mechanism of action leading to chemically-induced damage in men has been hampered by a lack of good predictive models. Although many of these chemicals were found to impair reproductive capacity in various laboratory animals, only some have caused reproductive damage in men. Mammalian spermatogenesis takes places within the avascular seminiferous tubules of the testis. Specialized tight junctions, which form between adjacent Sertoli cells at the time of puberty, divide the tubular space into the basal and adluminal compartments, and create a "blood-testis" barrier that restricts passage of substances and ions from the circulation. Thus, the completion of meiosis and post-meiotic germ cell differentiation, which take place in the adluminal compartment, are isolated from circulating substances unable to cross the blood-testis barrier. It seems feasible, therefore, that damage to the germ cells induced by testicular toxicants may be mediated through other cells in the testis such as the Sertoli, peritubular, or Leydig cells. A recently developed two-compartment system for culture of testicular cells can simulate, to some degree, the normal physiologic conditions. In principle, Sertoli cells isolated from mammalian testes are cultured on a permeable support (that is millipore filter) between two fluid compartments. They form a highly polarized epithelial layer with characteristic tight junctions that restrict the passage of substances between the two compartments, in analogy to the blood-testis barrier. We believe this system provides an excellent in vitro model for determining the ability of chemicals to: a) alter the permeability of the blood-testis barrier, b) impair the secretory function of Sertoli cells, or c) affect their viability, all of which could indirectly affect the germ cells. We have utilized this system for examining the effects of cadmium chloride (CdCl2) and other toxic substances known to affect the testis. The Leydig cell toxicity was investigated in testicular perfusion system or cultures of isolated Leydig cells.