Daniela F. Bussolino scite author profile

We have previously shown that c-Fos activates phospholipid synthesis through a mechanism independent of its genomic AP-1 activity. Herein, using PC12 cells induced to differentiate by nerve growth factor, the genomic effect of c-Fos in initiating neurite outgrowth is shown as distinct from its nongenomic effect of activating phospholipid synthesis and sustaining neurite elongation. Blocking c-Fos expression inhibited differentiation, phospholipid synthesis activation, and neuritogenesis. In cells primed to grow, blocking c-Fos expression determined neurite retraction. However, transfected cells expressing c-Fos or c-Fos deletion mutants with capacity to activate phospholipid synthesis sustain neurite outgrowth and elongation in the absence of nerve growth factor. Results disclose a dual function of c-Fos: it first releases the genomic program for differentiation and then associates to the endoplasmic reticulum and activates phospholipid synthesis. Because phospholipids are key membrane components, we hypothesize this latter phenomenon as crucial to support membrane genesis demands required for cell growth and neurite elongation.

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c‐Fos associates with the endoplasmic reticulum and activates phospholipid metabolism

Bussolino

Guido

Gil

et al. 2001

FASEB j.

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c-Fos, a transcription factor that constitutes DNA-binding AP-1 complexes, regulates gene expression that promotes long-lasting cellular changes. We show that, in addition to its transcription factor activity, c-Fos regulates the metabolism of phospholipids cytoplasmically by an AP-1-independent activity. Two waves of c-Fos expression that promote subsequent waves of stimulation of 32P-orthophosphate incorporation into phospholipids are evidenced in quiescent cultured fibroblasts induced to re-enter the cell cycle. The first wave of c-Fos expression peaks at 7.5 min and returns to control levels by 15 min. The second wave starts by 30 min and remains elevated at 120 min. In the first wave, the lipids that incorporate 32P are predominantly second-messenger polyphosphoinositides (PIP, PIP2, PIP3); whereas in the second wave, membrane-biogenesis-related lipids (PI, PE, PA), become radioactive. Both waves of phospholipid activation depend on c-Fos expression. It is interesting that a peptide that blocks AP-1 nuclear import does not affect phospholipid activation. Immunocytochemical examination showed c-Fos immunoreactivity associated to the endoplasmic reticulum. We conclude that c-Fos, rapidly induced upon cell stimulation, associates to the endoplasmic reticulum where it first regulates the synthesis/ replenishment of phospholipids required for signal transduction pathways and subsequently regulates enzymes involved in the genesis of new membrane necessary for cell growth.

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Light affects c-fos expression and phospholipid synthesis in both retinal ganglion cells and photoreceptor cells in an opposite way for each cell type

Bussolino

Zerpa

Grabois

et al. 1998

Molecular Brain Research

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