This study clearly demonstrates that repopulating human SSCs have phenotypic characteristics of SSEA-4(+), CD49f(+), GPR-125(+)and c-Kit (neg/low). The results have direct implications for enrichment of human spermatogonia for further culture and germ cell differentiation studies.
Recent work in preservation of female fertility as well as new information on the nature of spermatogonial stem cells has prompted an investigation into the possibility of an effective clinical-grade procedure for the cryopreservation of testicular cells and/or tissue. Clinical-grade reagents, validated equipment, and protocols consistent with cGTP/cGMP standards were used in developing a procedure suitable for the safe and effective cryopreservation of human testicular cells and tissues. These procedures were designed to be compliant with the relevant FDA regulations. The procedure proved to effectively cryopreserve both testicular cells and tissue. The cryopreservation of testicular tissue was comparable in most aspects we measured to the cryopreservation of isolated cells, except that the viability of the cells from cryopreserved testicular tissue was found to be significantly higher. On the other hand, cryopreservation of cells is preferred for cell analysis, quality control, and sterility testing. This study demonstrates that testicular tissue and cells from sexual reassignment patients can be successfully cryopreserved with a clinical-grade procedure and important cell populations are not only preserved but also enriched by the process. Further studies will determine whether these findings from hormone-treated patients can be generalized to other patients.
Hematopoietic cell transplantation (HCT) treats many blood conditions but remains underused due to complications such as graft‐versus‐host disease (GvHD). In GvHD, donor immune cells attack the patient, requiring powerful immunosuppressive drugs like glucocorticoids (GCs) to prevent death. In this study, we tested the hypothesis that donor cell conditioning with the glucocorticoid fluticasone propionate (FLU) prior to transplantation could increase hematopoietic stem cell (HSC) engraftment and reduce GvHD. Murine HSCs treated with FLU had increased HSC engraftment and reduced severity and incidence of GvHD after transplantation into allogeneic hosts. While most T cells died upon FLU treatment, donor T cells repopulated in the hosts and appeared less inflammatory and alloreactive. Regulatory T cells (Tregs) are immunomodulatory and survived FLU treatment, resulting in an increased ratio of Tregs to conventional T cells. Our results implicate an important role for Tregs in maintaining allogeneic tolerance in FLU‐treated grafts and suggest a therapeutic strategy of pre‐treating donor cells (and not the patients directly) with GCs to simultaneously enhance engraftment and reduce GvHD upon allogeneic HCT.
Multiple Sclerosis (MS) is a chronic inflammatory autoimmune disease affecting the central nervous system (CNS) and for which there is no cure. Current treatments focus on suppression of the immune system but fail to repair the resulting damage to the CNS. Neural stem cell (NSC) transplantation is a promising therapeutic strategy for treating neurodegenerative diseases through cell replacement and repair however it is unclear how these cells would mediate repair in MS. We report that human NSCs promote CNS specific T regulatory cells (Tregs) which activate endogenous repair pathways and promote remyelination in a murine model of MS. We observed remyelination, decreased inflammation and an increase in (CNS)-infiltrating CD4+CD25+FoxP3+ Tregs in EAE mice receiving an intra-spinal transplant of NSCs. Recovery was not a result of cell replacement, as NSCs underwent xenograft rejection, and was Treg dependent, as ablation of Tregs abrogated histopathological improvement. RAG2−/−2D2 (R2D2) mice, which bear a TCR repertoire restricted to myelin oligodendrocyte glycoprotein (MOG) and neurofilament, lack CD25+FoxP3+ Tregs under homeostatic conditions; however, upon exposure to MOG, R2D2 mice developed CD25+FoxP3+ Tregs in cervical lymph nodes and the spinal cord. hNSCs also promoted Tregs in vitro in co-cultures with wild type B6 and R2D2 splenocytes, but not with RAG2−/− OT-II+ splenocytes. Additionally, hNSC-Tregs also appear to derive from the exTreg pool suggesting both antigen specific expansion and antigen dependent maintenance of FOXP3 in CNS-specific Tregs. hNSC Tregs also have a unique expression profile and express transglutimase-2 which is implicated in oligodendrocyte dependent repair in the CNS.
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