AI Article Synopsis
- Depletion of nerve growth factor (NGF) in PC12 cells leads to programmed cell death by reducing NGF receptor signaling and altering gene expression.
- Researchers studied the gene expression changes in a subline of PC12 cells and identified 30 genes affected by NGF depletion, with 20 genes, including LRF-1/ATF3, being up-regulated during cell death.
- The findings suggest distinct gene expression patterns in response to NGF removal versus other triggers, enhancing our understanding of the mechanisms behind programmed neuronal cell death.
Article Abstract
Depletion of nerve growth factor (NGF) from differentiated, neuronal PC12 cells causes a form of programmed cell death that stems from the attenuation of NGF receptor signaling and the resultant expression of certain genes required for cell death. To better understand the associated molecular events, we surveyed the changes in gene expression in PC6-3 cells, a subline of PC12, caused by depletion of NGF. Using restriction landmark cDNA scanning, we assessed the expression patterns of as many as 15,000 gene species, and 30 genes were isolated whose expression was altered in the absence of NGF. Of the 20 genes up-regulated in the absence of NGF, including transcription factor LRF-1/ATF3, most were also up-regulated during the programmed death of cortical neurons caused by Ca2+ ionophore. Their function may thus be a general feature of programmed neuronal cell death. In contrast, with one exception, expression of down-regulated genes was NGF-dependent and therefore diminished in the absence of NGF but unaffected by Ca2+ ionophore. These findings confirm that global investigation of the features of up- and down-regulated genes should add substantially to our understanding of the regulation of programmed neuronal cell death and the mechanisms involved.
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| http://dx.doi.org/10.1016/s0167-4781(99)00204-3 | DOI Listing |
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