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Abstract

We report the isolation of bcl-x, a bcl-2-related gene that can function as a bcl-2-independent regulator of programmed cell death (apoptosis). Alternative splicing results in two distinct bcl-x mRNAs. The protein product of the larger mRNA, bcl-xL, is similar in size and predicted structure to Bcl-2. When stably transfected into an IL-3-dependent cell line, bcl-xL inhibits cell death upon growth factor withdrawal at least as well as bcl-2. Surprisingly, the second mRNA species, bcl-xS, encodes a protein that inhibits the ability of bcl-2 to enhance the survival of growth factor-deprived cells. In vivo, bcl-xS mRNA is expressed at high levels in cells that undergo a high rate of turnover, such as developing lymphocytes. In contrast, bcl-xL is found in tissues containing long-lived postmitotic cells, such as adult brain. Together these data suggest that bcl-x plays an important role in both positive and negative regulation of programmed cell death.

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Bcl-2 gene promotes haemopoietic cell survival and cooperates with c-myc to immortalize pre-B cells.

D L Vaux, S. Cory, J M Adams (1988)

A common feature of follicular lymphoma, the most prevalent haematological malignancy in humans, is a chromosome translocation (t(14;18] that has coupled the immunoglobulin heavy chain locus to a chromosome 18 gene denoted bcl-2. By analogy with the translocated c-myc oncogene in other B-lymphoid tumours bcl-2 is a candidate oncogene, but no biological effects of bcl-2 have yet been reported. To test whether bcl-2 influences the growth of haematopoietic cells, either alone or together with a deregulated c-myc gene, we have introduced a human bcl-2 complementary DNA using a retroviral vector into bone marrow cells from either normal or E mu-myc transgenic mice, in which B-lineage cells constitutively express the c-myc gene. Bcl-2 cooperated with c-myc to promote proliferation of B-cell precursors, some of which became tumorigenic. To determine how bcl-2 expression impinges on growth factor requirements, the gene was introduced into a lymphoid and a myeloid cell line that require interleukin 3 (IL-3). In the absence of IL-3, bcl-2 promoted the survival of the infected cells but they persisted in a G0 state, rather than proliferating. These results argue that bcl-2 provided a distinct survival signal to the cell and may contribute to neoplasia by allowing a clone to persist until other oncogenes, such as c-myc, become activated.

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Bcl-2 is an inner mitochondrial membrane protein that blocks programmed cell death.

D Hockenbery, G Nuñez, C Milliman … (1990)

The t(14; 18) chromosomal translocation of human follicular B-cell lymphoma juxtaposes the bcl-2 gene with the immunoglobulin heavy chain locus. The bcl-2 immunoglobulin fusion gene is markedly deregulated resulting in inappropriately elevated levels of bcl-2 RNA and protein. Transgenic mice bearing a bcl-2 immunoglobulin minigene demonstrate a polyclonal expansion of resting yet responsive IgM-IgD B cells which display prolonged cell survival but no increase in cell cycling. Moreover, deregulated bcl-2 extends the survival of certain haematopoietic cell lines following growth-factor deprivation. By using immunolocalization studies we now demonstrate that Bcl-2 is an integral inner mitochondrial membrane protein of relative molecular mass 25,000 (25k). Overexpression of Bcl-2 blocks the apoptotic death of a pro-B-lymphocyte cell line. Thus, Bcl-2 is unique among proto-oncogenes, being localized to mitochondria and interfering with programmed cell death independent of promoting cell division.