Absence of major histocompatibility complex class I on neural stem cells does not permit natural killer cell killing and prevents recognition by alloreactive cytotoxic T lymphocytes in vitro

Abstract

Potential applications of neural stem cells (NSCs) for transplantation requires understanding myosin heavy chain (MHC) expression and the ability of T cells and natural killer (NK) cells to recognize this progenitor population. Cells from the cortices of day-13 embryonic (E13) B6 (H-2(b)) mice were explanted and cultured to expand NSCs. Analysis of P2-P17-cultured cells using anti-MHC class I/II monoclonal antibodies (mAbs) showed marginal expression of both products. Although recombinant murine interferon-gamma (rmIFN gamma) exposure did not alter the multipotential capacity of these stem cells, titration of mrIFN gamma NSC cultures demonstrated that MHC molecules could be strongly upregulated after addition of 3 ng/ml rmIFN gamma for 60 hours. To assess the susceptibility of NSCs with low or absent versus high levels of MHC expression to lysis by cytotoxic T lymphocyte (CTL) and NK populations, untreated and rmIFN gamma-treated NSC target cells were examined. Untreated NSCs were not recognized by BALB/c (H-2(d)) allospecific anti-H-2(b) CTL, consistent with the mAb findings; however, upregulation of MHC products on both early and later passaged NSCs resulted in their efficient lysis by CTL. NK cells were prepared from syngeneic B6 or allogeneic BALB/c mice. Although NK cells effectively killed control YAC-1 target cells, these effectors did not kill MHC-deficient (or expressing) NSC targets. Thus, similar to hematopoietic, embryonic, and mesenchymal stem cell populations, unmanipulated NSCs are not readily killed by T and NK cells. These findings suggest that following transplant into syngeneic or allogeneic recipients, NSCs may exhibit diminished susceptibility to clearance by host T- and NK-cell populations.