Accumulation of cystine auxotrophic thymocytes accompanying type C viral leukemogenesis in the mouse.

Certain continuous lymphoid and myeloid tumor cell lines of rodent origin are unable to grow in tissue culture in the absence of pre-formed L-cystine (CYS). In contrast, three NZB murine lymphoid cell lines obtained from NZB mice free of hematopoietic neoplasm can grow as well in cystine-deficient media containing L-cystathionine (CSN), the immediate precursor of CYS in the biosynthetic pathway, as in cystine sufficient medium. The former class of cells is, therefore, CYS auxotrophs (CYS-) and the latter CYS prototrophs (CYS+). Compared to CYS+ cells, the CYS- lines appear to be relatively deficient in the enzyme cystathionase, which catalyzes the cleavage of CSN to CYS and alpha-ketobutyrate. Using protein synthetic capacity as a criterion, normal thymocytes from mixed-bred Swiss mice behave like CYS prototrophs, while those from littermates bearing Moloney type C virus-induced thymic tumors behave like CYS auxotrophs. The former are also characterized by substantially higher levels of cystathionase than the latter. Extracts of thymocytes from tumor-free AKR mouse thymus are also characterized by higher levels of cystathionase activity than extracts of spontaneous AKR thymomas. Exogenous in vitro type C virus infection of a CYS+ cell results in vigorous virus production but no concomitant reduction in cystathionase activity. Thus viral replication alone in any random lymphoid cell is not sufficient to alter the enzyme level. The data therefore suggests that CYS auxotrophy may closely accompany neoplastic transformation of certain hematopoietic cells in vivo, including that induced by certain "thymic" type C viruses.