The v-Abl protein tyrosine kinase encoded by Abelson murine leukemia virus (Ab-MLV) induces transformation of pre-B cells in vivo and in vitro and can transform immortalized fibroblast cell lines in vitro. Although the kinase activity of the protein is required for these events, most previously studied mutants encoding truncated v-Abl proteins that lack the extreme carboxyl terminus retain high transforming capacity in NIH 3T3 cells but transform lymphocytes poorly. To understand the mechanisms responsible for poor lymphoid transformation, mutants expressing a v-Abl protein lacking portions of the COOH terminus were compared for their ability to transform pre-B cells. Although all mutants lacking sequences within the COOH terminus were compromised for lymphoid transformation, loss of amino acids in the central region of the COOH terminus, including those implicated in JAK interaction and DNA binding, decreased transformation twofold or less. In contrast, loss of the extreme COOH terminus rendered the protein unstable and led to rapid proteosomemediated degradation, a feature that was more prominent when the protein was expressed in Ab-MLVtransformed lymphoid cells. These data indicate that the central portion of the COOH terminus is not essential for lymphoid transformation and reveal that one important function of the COOH terminus is to stabilize the v-Abl protein in lymphoid cells.
Abelson murine leukemia virus (Ab-MLV) is a replicationdefective retrovirus that transforms pre-B cells and NIH 3T3 cells in vitro and induces a pre-B cell lymphoma in vivo (reviewed in reference 40). The virus encodes a single product, the v-Abl nonreceptor protein tyrosine kinase, which contains amino-terminal sequences derived from the Moloney leukemia virus gag gene fused to sequences from the c-abl protooncogene. The Gag-derived sequences localize the protein to the inner surface of the plasma membrane; abl-derived sequences specify the catalytic domain, the SH2 domain, a region which facilitates protein-protein interaction through phosphotyrosinemediated interactions, and a long, 374-amino-acid carboxylterminal region. Similar to other protein tyrosine kinase oncoproteins, enzymatic activity, proper localization, and the SH2 domain are required for transformation of all cell types. In contrast, the carboxyl-terminal region is not required for transformation of NIH 3T3 cells. However, this region is necessary for efficient transformation of lymphoid cells (20,21,29,39).The mechanism by which the carboxyl terminus influences Abl function is not known. The region is unique to members of the Abl family and to the closely related Arg protein, but it is the least conserved portion of the proteins (18,23,34,45). Despite this fact, the region contains multiple sites that may be important for function. These include proline-rich motifs that interact with the adaptor proteins Crk, Grb2, Nck, and the Abi proteins (6,14,35,44,46) and sites that bind JAK proteins (7, 8) and F-and G-actin (26, 27, 48). In addition, several serines that ca...
