Autocrine signaling
From Proteopedia
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An example of an autocrine agent is the cytokine interleukin-1 in monocytes (see [[Interleukin]]). When interleukin-1 is produced in response to external stimuli, it can bind to cell-surface receptors on the same cell that produced it (see [[Interleukin receptors]]). | An example of an autocrine agent is the cytokine interleukin-1 in monocytes (see [[Interleukin]]). When interleukin-1 is produced in response to external stimuli, it can bind to cell-surface receptors on the same cell that produced it (see [[Interleukin receptors]]). | ||
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| - | '''Wnt signaling pathway''' | ||
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| - | Normally, the [[Wnt signaling pathway]] leads to stabilization of β-catenin (see [[Catenin]]) through inactivation of a protein complex containing the tumor suppressors [[Adenomatous polyposis coli]] (APC) and [[Axin]]. Genetic alterations that lead to de-regulation of the autocrine Wnt pathway result in transactivation of [[Epidermal Growth Factor Receptor]] (EGFR) and other pathways, in turn contributing to proliferation of tumor cells. | ||
'''Interleukin 6''' | '''Interleukin 6''' | ||
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Several studies have outlined the importance of autocrine IL-6 signaling in lung and breast cancers. For example, one group found a positive correlation between persistently activated tyrosine-phosphorylated [[Stepler sandbox STAT3|STAT3]] (pSTAT3), found in 50% of lung adenocarcinomas, and IL-6. Further investigation revealed that mutant [[EGFR]] could activate the oncogenic STAT3 pathway via upregulated IL-6 autocrine signaling. Similarly, HER2 overexpression occurs in approximately a quarter of breast cancers and correlates with poor prognosis. Recent research revealed that IL-6 secretion induced by [[HER2]] overexpression activated STAT3 and altered gene expression, resulting in an autocrine loop of IL-6/STAT3 expression. Both mouse and human in vivo models of HER2-overexpressing breast cancers relied critically on this HER2–IL-6–STAT3 signaling pathway. | Several studies have outlined the importance of autocrine IL-6 signaling in lung and breast cancers. For example, one group found a positive correlation between persistently activated tyrosine-phosphorylated [[Stepler sandbox STAT3|STAT3]] (pSTAT3), found in 50% of lung adenocarcinomas, and IL-6. Further investigation revealed that mutant [[EGFR]] could activate the oncogenic STAT3 pathway via upregulated IL-6 autocrine signaling. Similarly, HER2 overexpression occurs in approximately a quarter of breast cancers and correlates with poor prognosis. Recent research revealed that IL-6 secretion induced by [[HER2]] overexpression activated STAT3 and altered gene expression, resulting in an autocrine loop of IL-6/STAT3 expression. Both mouse and human in vivo models of HER2-overexpressing breast cancers relied critically on this HER2–IL-6–STAT3 signaling pathway. | ||
| + | '''Wnt signaling pathway''' | ||
| + | Normally, the [[Wnt signaling pathway]] leads to stabilization of β-catenin (see [[Catenin]]) through inactivation of a protein complex containing the tumor suppressors [[Adenomatous polyposis coli]] (APC) and [[Axin]]. Genetic alterations that lead to de-regulation of the autocrine Wnt pathway result in transactivation of [[Epidermal Growth Factor Receptor]] (EGFR) and other pathways, in turn contributing to proliferation of tumor cells. | ||
</StructureSection> | </StructureSection> | ||
== References == | == References == | ||
<references/> | <references/> | ||
Revision as of 13:02, 4 May 2022
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