Spermatogonial stem cells (SSCs) are vital for lifelong spermatogenesis in man. In their niches, a special growth factor milieu and structural support by surrounding cells are thought to ensure their maintenance. In man, the cells of the wall of seminiferous tubules, human testicular peritubular cells (HTPCs), are considered to contribute to this microenvironment and the overall testicular microenvironment via secreted proteins. Therefore, the secretome of cultured HTPCs from five individual men was analyzed by LC-MS/MS. Quantification and comparison to the proteome of HTPC lysates revealed 263 out of 660 identified secretome proteins to be at least 5-fold enriched in the culture media. To obtain additional evidence for secretion, signal peptide and gene ontology (GO) enrichment analyses were applied. The latter revealed--besides extracellular matrix (ECM) components--a significant over-representation of chemokines and growth factors acting in signaling pathways that appear critical for SSC maintenance. Immunohistochemistry, performed with human testicular sections, depicted expression of selected proteins in vivo. The significant enrichment of proteins related to cell adhesion and migration may indicate their involvement in SSC regulation. Our data strongly support the hypothesis of a crucial role of HTPCs in the composition of SSC niches in man.
Protease activated receptor-2 (PAR-2) is the receptor for the prototype mast cell product tryptase. PAR-2 expression by cells of the human germinal epithelium was reported, but the exact cellular sites of testicular expression remained unknown. That became of interest, because mast cells, expressing tryptase, were found in the walls of seminiferous tubules of patients suffering from sub-and infertility. This location suggested that mast cells via tryptase might be able to influence PAR-2-expressing cells in the germinal epi-thelium. To explore these points, we used testicular paraffin-embedded sections for immunohistochemistry. PAR-2-positive cells were mostly basally located cells of the seminiferous epithelium, namely spermatogonia. Some stained for the receptor for GDNF (GFRalpha-1), and possibly represent spermatogonial stem cells (SSCs). As true human SSCs could not be examined, we turned to TCam-2 seminoma cells, expressing PAR-2 and stem cell markers, including GFRalpha-1. TCam-2 cells robustly responded to stimulation with a specific PAR-2 agonist (SLIGKV) by increased intracellular Ca 2+ levels. Recombinant tryptase and trypsin, but not a control peptide (VKGILS) evoked this response, implying functional PAR-2. Video imaging and caspase 3/7 assays showed that SLIGKV and tryptase prevented spontaneous apoptosis and increased proliferation of TCam-2 cells. The expression of the marker of pluripo-tency OCT3/4 was unchanged upon activation of PAR-2, suggesting that the stem cell-like character is not changed. Furthermore, human germ cell cancers were examined. A subset of seminoma and carcinoma in situ samples expressed PAR-2, indicating that yet unknown subgroups exist. Collectively, the descriptive data obtained in human testicular sections, in germ cell cancers and the functional results in TCam-2 cells imply a trophic role of mast cell-derived tryptase for human germ cells. This may be relevant for sub-types of human germ cell cancers, and possibly SSCs. It also raises the possibility that PAR-2 agonists might be useful for the in vitro propagation of human SSCs.
Male fertility depends on spermatogenesis, which takes place in the seminiferous tubules of the testis. This compartment is devoid of blood vessels, which are however found in the wall of the seminiferous tubules. Our proteomic study using cultured human testicular peritubular cells (HTPCs) i.e. the cells, which form this wall, revealed that they constitutively secrete pigment epithelium-derived factor, PEDF, which is known to exert anti-angiogenic actions. Immunohistochemistry supports its presence in vivo, in the human tubular wall. Co-culture studies and analysis of cell migration patterns showed that human endothelial cells (HUVECs) are repulsed by HTPCs. The factor involved is likely PEDF, as a PEDF-antiserum blocked the repulsing action. Thus testicular peritubular cells, via PEDF, may prevent vascularization of human seminiferous tubules. Dihydrotestosterone (DHT) increased PEDF (qPCR) in HTPCs, however PEDF expression in the testis of a non-human primate occurs before puberty. Thus PEDF could be involved in the establishment of the avascular nature of seminiferous tubules and after puberty androgens may further reinforce this feature. Testicular microvessels and blood flow are known to contribute to the spermatogonial stem cell niche. Hence HTPCs via control of testicular microvessels may contribute to the regulation of spermatogonial stem cells, as well.
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