Isolation and culture of testicular macrophages from a seasonally breeding species, Phodopus sungorus. Evidence for functional differences between macrophages from active and regressed testes

Purification and identification of 25-hydroxycholesterol in a reptile: Seasonal variation and hormonal regulation

The present in vitro study, for the first time, demonstrates the production of 25-hydroxycholestrol (25-HC) by testicular macrophages of a non-mammalian vertebrate. The ether extracts of testicular macrophage-conditioned medium (TMCM) were fractionated on a C18 reversed phase high-performance liquid chromatography (HPLC) column using methanol as the mobile phase. The mass spectrometry (MS) fragmentation pattern of HPLC-purified 25-HC was found to be identical to that of authentic 25-HC. Further, a significant seasonal variation in 25-HC concentration was observed with maximal level in regressed and minimal during breeding phase. To understand the hormonal control of 25-HC production, testicular macrophages from regressed phase testes were incubated with 0.5μg/ml of ovine follicle stimulating hormone (FSH) and 0.1, 1 and 10μg/ml of testosterone (T). FSH considerably enhanced 25-HC production by testicular macrophages. In contrast, T markedly inhibited 25-HC production in a dose-dependent manner. In addition, T significantly inhibited FSH-induced 25-HC production, though pre-treatment with T was more effective as compared to post-treatment with T to FSH. Our findings on production, seasonal variation and hormonal control of 25-HC suggest the functional significance of 25-HC in the testis of reptiles.

Paracrine role of macrophage produced-nitric oxide (NO) in Leydig cell steroidogenesis in a teleost, Clarias batrachus: Impact of gonadotropin, growth hormone and insulin on NO production by testicular macrophages

The present in vitro study for the first time demonstrates the role of extragonadal hormones in regulation of NO production by testicular macrophages in vertebrates and paracrine role of NO in Leydig cell steroidogenesis in fishes. N-nitro L-arginine methyl ester (L-NAME - a NOS inhibitor) treatment substantially reduced NO production by testicular macrophages suggesting that testicular macrophages are one of the sources of testicular NO in the catfish, Clarias batrachus. Significant decline in NO production was also recorded following treatment of macrophages with the gonadotropin (GtH), growth hormone (GH) and insulin indicating that macrophage-produced NO is under endocrine inhibitory control. Treatment of Leydig cells with sodium nitroprusside (SNP) decreased testosterone (T) production. SNP treatment also remarkably suppressed the GtH, GH and insulin-stimulated T production by Leydig cells indicating that Leydig cell steroidogenesis is sensitive to exogenous NO. Further, effect of conditioned medium of testicular macrophages incubated with medium alone (non-treated TMCM) or GtH (GtH-treated TMCM) or GH (GH-treated TMCM) or insulin (insulin-treated TMCM) were also observed on Leydig cell T production. Non-treated TMCM as well as hormone-treated TMCM stimulated T production by Leydig cells; hormone-treated TMCM were more effective in stimulating T production than non-treated TMCM and/or hormones alone. These experiments altogether suggest that testicular macrophage secrete some factors, which influence Leydig cell steroidogenic activity through paracrine mechanism, and these paracrine secretions are under the endocrine control. Decline in NO in hormone-treated TMCM might also be one of the reasons for more stimulation in T production than that of hormones alone.

Paracrine role of testicular macrophages in control of Leydig cell activities in the wall lizard, Hemidactylus flaviviridis

The present in vitro study in wall lizards Hemidactylus flaviviridis demonstrates the differential paracrine role of testicular macrophages in regulation of Leydig cell activities under normal physiological and inflammatory condition for the first time in reptiles. To accomplish the objective, the effect of condition media of testicular macrophages incubated in medium alone or with FSH/LPS was observed on Leydig cell steroidogenesis and proliferation. Non-activated testicular macrophage-conditioned medium (TMCM) increased the testosterone production from Leydig cells and the stimulation was more pronounced with FSH-preactivated TMCM, suggesting the trophic effect of FSH on secretion of steroidogenic factor from lizard testicular macrophages. Also, testicular macrophage-secreted paracrine factor had additive effect on FSH-induced testosterone production, since FSH-activated TMCM that contained both FSH as well as FSH-induced testicular macrophage-secreted paracrine factor, stimulated the Leydig cell steroidogenesis more potently than FSH alone. In contrast, LPS-activated TMCM inhibited the testosterone production suggesting the inhibitory role for testicular macrophages in control of Leydig cell steroidogenesis under inflammatory condition. Like steroidogenesis, the differential effects of TMCM were observed on Leydig cell proliferation depending on normal or inflammatory condition. Non-activated TMCM increased, while LPS-activated TMCM decreased the FSH-induced Leydig cell proliferation. It appears that lizard testicular macrophages under inflammatory condition secrete a different paracrine factor which instead of stimulating inhibits Leydig cell activities.

Role of gonadotropin and Leydig cell-secreted factors in the control of testicular macrophage activities in the wall lizard Hemidactylus flaviviridis

The present in vitro study for the first time demonstrates the endocrine and paracrine control of testicular macrophage activities in ectodermic vertebrates. Follicle-stimulating hormone (FSH) increased phagocytosis and superoxide production by macrophages. In regard to paracrine control, non-activated Leydig cell-conditioned medium (LCCM) decreased both the activities, whereas FSH-preactivated LCCM had differential effects: inhibitory on phagocytosis and stimulatory on superoxide production. However, FSH-activated LCCM, in addition to superoxide production, also enhanced phagocytosis. After heat inactivation, FSH-activated LCCM inhibited both the activities. Addition of FSH resulted in stimulation of phagocytosis, while partially restored the superoxide production. It can be speculated that androgen in heat-inactivated FSH-activated LCCM, in the presence of FSH, instead of inhibitory had stimulatory effect on phagocytosis, but remained inhibitory to superoxide production. Further, FSH-induced Leydig cell-secreted non-steroidal heat-labile factors appear to have stimulatory effect on superoxide production. This was corroborated by experiments with dihydrotestosterone in presence/absence of FSH.

Number, distribution pattern, and identification of macrophages in the testes of infertile men

OBJECTIVE

To investigate the number, location, and secretory products of macrophages in human testes showing normal and abnormal spermatogenesis.

DESIGN

Evaluation of testicular biopsies with the use of immunohistochemistry, laser capture microdissection, and reverse transcriptase polymerase chain reaction.

SETTING

University research and clinical institutes.

PATIENT(S)

Infertile men with germ cell arrest (n = 10), Sertoli cell only (n = 8), or mixed atrophy (n = 7) syndromes, and with cases of idiopathic infertility showing normal spermatogenesis (n = 8).

INTERVENTION(S)

Diagnostic testicular biopsy was performed on participants.

MAIN OUTCOME MEASURE(S)

We recorded the location, number, distribution, and cytokine expression of human testicular macrophages.

RESULT(S)

CD68-positive macrophages were found in the testes of all groups analyzed. These macrophages expressed the genes for interleukin 1 and tumor necrosis factor-alpha, and were located in the interstitium, tubular wall, and tubular lumen. In Sertoli cell only and germ cell arrest syndromes, the overall macrophage number was increased over twofold. In all pathologic states, there was a significant shift of these cells from the interstitium to the tubules.

CONCLUSION(S)

Our study suggests that increased numbers of CD68-positive macrophages directly (via phagocytosis) or indirectly (via paracrine actions exerted through their secretory products) are involved in the regulation of steroidogenesis, Sertoli cell activity, germ cell survival, and, in consequence, in the pathogenesis or maintenance of infertility states in the human testes.