The identification of biomarkers of a living tissues is essentially required to understand specific functions of the cells. In previous study, we reported IGFBP 3 as one of the putative biomarkers, by showing specific expression at porcine spermatogonial stem cells (SSCs) of early stage of porcine testis. In this study, we analyzed the expression of seven members of IGFBP family (IGFBPs) in SSCs and histological expression pattern of pregnancy-associated plasma protein-A (PAPP-A), which plays a role on the growth promoting enzyme by cleavage of IGFBPs in testis of 5 days old pig. RT-PCR analysis showed that IGFBP 1, 2, 3, 4, and 6 were expressed at high level specifically in porcine SSCs compared with whole testis. We performed immunohisotochemical staining of testis sections with PAPP-A and protein gene product 9.5 (PGP9.5) which are the known biomarkers for SSCs. We were not able to find co-expression of PAPP-A and PGP9.5; PAPP-A was expressed only in Sertoli cells and PGP9.5 expression was confirmed in spermatogonium. Additionally, we were able to confirm the GATA4 expression in Sertoli and Leydig cells as a regulator of Sertoli cell function was not detected PGP9.5 expressing cells, indicating indirect evidence of that cytolocalization of PAPP-A expression is limited in Sertoli cells. These results suggested that the PAPP-A expressed in Sertoli cells may play role on regulation of development and differentiation of testicular cells through the IGF axis in neonatal porcine testis.

Despite that porcine spermatogonial stem cells (pSSCs) have been regarded as a practical tool for preserving eternally genetic backgrounds derived from pigs with high performance in the economic traits or phenotypes of specific human diseases, there were no reports about precise definition of niche conditions promoting proliferation and maintenance of pSSCs. Accordingly, we tried to determine niche conditions supporting proliferation and maintenance of undifferentiated pSSCs for short-term. For these, undifferentiated pSSCs were progressively cultured in different composition of culture medium, seeding density of pSSCs, type of feeder cells and concentration of growth factors, and then total number of and alkaline phosphatase (AP) activity of pSSCs were investigated at post-6 day culture. As the results, the culture of 4x105 pSSCs on mitotically in activated 2x105 STO cells in the mouse embryonic stem cell culture medium (mESCCM) supplemented with 30 ng/ml glial cell line-derived neurotrophic factor (GDNF) was identified as the best niche condition supporting effectively the short-term maintenance of undifferentiated pSSCs. Moreover, the optimized short-term culture system will be a basis for developing long-term culture system of pSSCs in the following researches.

Despite many researches related with in-vitro culture of porcine spematogonial stem cells (SSCs), adherent culture system widely used has shown a limitation in the maintenance of porcine SSC self-renewal. Therefore, in order to overcome this obstacle, suspension culture, which is known to have numerous advantage over adherent culture, was applied to the culture of porcine SSCs. Porcine SSCs retrieved from neonatal testes were suspension-cultured for 5 days or 20 days, and characteristics of suspension-cultured porcine SSCs including proliferation, alkaline phosphatase (AP) activity, and self-renewal-specific gene expression were investigated and compared with those of adherent-cul-tured porcine SSCs. As the results, the suspension-cultured porcine SSCs showed entirely non-proliferative and significantly higher rate of AP-positive cells and expression of self-renewal-specific genes than the adherent-cultured porcine SSCs. In addition, long-term culture of porcine SSCs in suspension condition induced significant decrease in the yield of AP staining-positive cells on post-day 10 of culture. These results showed that suspension culture was inappropriate to culture porcine SSCs, because the culture of porcine SSCs in suspension condition didn’t stimulate proliferation and maintain AP activity of porcine SSCs, regardless of culture periods.

INTRODUCTION In rodent, molecular markers of spermatogonia, spermatocyte, spermatid and sperm have been identified. It has been reported that DBA, PGP 9.5 and NanpG can be the markers for spermatogonia in pig. For further understanding the spermatogenesis of the pig on morphological and molecular level, we report identification of testicular cells in neonatal and pubertal pig testis, and a putative marker for spermatogonia and spermatid in pig testis. MATERIALS AND METHODS Neonatal (3 day) and pubertal testis (150 day) was cut and fixed in Bouin’s solution for immunohistochemistry (IHC). Gonocytes were isolated from neonatal testis for immunocytochemistry (ICC). Based on references (Phillips et al., 2010), thirteen antibodies (VASA, Oct4, NanoG, PGP 9.5, DAZL, SCF, GFR-alpha 1, PLZF, c-kit, integrin-beta1, Thy1, Sohlh1 and CD9) were used for IHC and ICC. Paraffin section was performed for IHC. Gonocytes were attached to the APS-coated slides for ICC. HRP-conjugated and florescent-labeled secondary antibody was used for IHC and ICC, respectively. RESULTS In histological analysis, spermatogonia and Sertoli cells, which are enclosed by seminiferous tubule and connective tissue, were observed in neonatal testis. However, complete spermiogenesis, including spermatocyte, spermatid and spermatozoa, was not observed in neonatal testis. Spermatocyte, spermatid and elongated spermatid were observed in pubertal testis but matured spermatozoa were not observed. As a result, two antibodies (PGP 9.5 and GFR-alpha1) of thirteen antibodies were available for IHC and ICC. As reported in other studies, PGP 9.5 protein was detected in spermatogonia of ne-onatal in IHC. In addition, it was observed in spermatogonia of pubertal testis. GFR- alpha1 protein was detected in spermatogonia of neonatal testis and spermatid of pubertal testis. In ICC, PGP 9.5 protein was detected in gonocytes as reported in other studies. GFR-alpha1 was also observed in gonocyte isolated from pig testis. In this study, we found that 1) only spermatogonia exist in neonatal pig testis (3 day), 2) GFR-alpha1 is a new marker for spermatogenesis in pig testis.

In an effort to uncover the spermatogenic impairment by the polychlorinated biphenyls (PCBs), the expression of tight junctions (TJs) genes important for the formation of the blood testis barrier (BTB) were examined following the 3,3',4,4',5-pentachloro biphenyl (PCB126) treatment in cultured neonatal testis in mice. At 4 days (D4) after 10 and 100 nM PCB126 treatment the expression of claudin-11 was significantly increased when compared with vehicle control. In contrast no difference in occludin and claudin-1 expression was found among the experimental group. On D8, 100 nM PCB126 significantly increased the expression of claudin-11 but not occludin and claudin-1. 1 uM PCB126 treatment significantly decreased expressions of occludin and ciaudin -1, suggesting the general toxic effect on the Sertoli cell. Because PCB126 does not alter the proliferative activity of spermatogenic cells and Sertoli cells in neonatal testis, it is likely that increase in the expression of claudin-11 by low dose of PCB126 may attribute to the alteration of the Sertoli cells differentiation in testis. It also emphasized that PCB126 might have differentially affected the transcription of TJ genes in Sertoli cells. In conclusion, this result suggests that the structure of TJ may be targeted by PCB126 in neonatal testis in mice and that co-PCB is potentially harmful to spermatogenesis by alteration of the development of BTB.