Bioinformatics and Systems Medicine Laboratory
General information | Expression | Regulation | Mutation | Interaction

Basic Information

Gene ID

581

Name

BAX

Synonymous

BCL2L4;BCL2-associated X protein;BAX;BCL2-associated X protein

Definition

apoptosis regulator BAX|bcl-2-like protein 4|bcl2-L-4

Position

19q13.3-q13.4

Gene type

protein-coding

Source

Count: 1; Pubmed_search

Sentence

Abstract

Proteins of the Bcl2 family regulate the permeability of the mitochondrial membrane for AIF and cytochrome c. This family of structurally related proteins consists of more than twenty members including bcl2 and bcl-x protooncogene products that can block apoptosis and tumor suppressor Bax that on the contrary can induce apoptosis.

"Changes in expression of protooncogenes and tumor suppressor genes play a key role in oncogenesis. Dysfunction of their protein products leads to abnormal regulation of signaling pathways, which control the cell cycle, apoptosis, genetic stability, cell differentiation, and morphogenetic reactions. Changes in these important physiological processes are obviously responsible both for initial steps of neoplastic cell transformation and for determination of subsequent tumor progression resulting in the development of malignant tumors."

"BAX and BAK mediate p53-independent suppression of tumorigenesis. Thus, BAX and BAK function to suppress tumorigenesis, and their deficiency was selected for in vivo. "

"BAX and BAK are essential regulators of proapoptotic signaling, and the disruption of apoptosis is linked to the development of cancer. To investigate the role of BAX and BAK in tumorigenesis, primary baby mouse kidney epithelial cells (BMKs) from wild-type, BAX-, BAK-, or BAK- and BAK-deficient mice were transformed by adenovirus E1A and dominant-negative p53 (p53DD). In wild-type BMKs, the expression of E1A and inactivation of p53 was sufficient for transformation but not tumorigenesis. In contrast, E1A- and p53DD-transformed BAX- and BAK-deficient BMKs formed highly invasive carcinomas. Transformed BMKs deficient for either BAX or BAK were also tumorigenic, but only when heterozygous for the remaining bax or bak allele, the expression of which was lost in most resulting tumors. Thus, BAX and BAK function to suppress tumorigenesis, and their deficiency was selected for in vivo."

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