Epidermal Growth Factor Triggers an Original, Caspase-independent Pituitary Cell Death with Heterogeneous Phenotype

Abstract: Programmed cell death (PCD) is physiologically involved in the regulation of cell division and differentiation. It encompasses caspase-dependent mitochondrial and nonmitochondrial pathways. Additional caspase-independent pathways have been characterized in mitochondrial PCDs but remain hypothetical in nonmitochondrial PCDs. Epidermal growth factor (EGF) has been shown to inhibit division of pituitary somato-lactotrope cells occurring in parallel with EGF-mediated differentiation of these precursors into lactot… Show more

“…Several studies showed that in most cells EGF is growth stimulatory and anti-apoptotic; however, a number of tumor cell lines have been shown to be killed by this peptide through unknown mechanisms [31][32][33]. Consistent with these studies, our results showed that EGF has a negative role to regulate the Mac-2BP expression, although it couldn' t detect the apoptotic process.…”

Role of STAT3 as a Negative Regulator in Mac2- Binding Protein Expression

“…Several studies showed that in most cells EGF is growth stimulatory and anti-apoptotic; however, a number of tumor cell lines have been shown to be killed by this peptide through unknown mechanisms [31][32][33]. Consistent with these studies, our results showed that EGF has a negative role to regulate the Mac-2BP expression, although it couldn' t detect the apoptotic process.…”

Role of STAT3 as a Negative Regulator in Mac2- Binding Protein Expression

“…Cell death induced by EGF is caspase-independent and involves a loss of MMP, but does not involve the release of cytochrome c or AIF from mitochondria. EGF-induced cell death in GH4C1 cells can be blocked by a Bcl-2 overexpression (Fombonne et al, 2004). The characterization of apoptosis in GH4C1 cells closely resembles the morphological and biochemical features of EGF-induced apoptosis in A431/ErbB-2 and SKBr3/EGFR cells.…”

“…The opening of mitochondrial pores and release of AIF and endonuclease G, which induce nuclear apoptosis, could be responsible for DNA fragmentation and chromatin condensation. However, a recent publication suggests that during EGF-induced caspase-independent apoptosis in GH4C1 cells there is no activation of AIF (Fombonne et al, 2004). Another recent publication reported that caspase inhibition prevents the mitochondrial release of AIF and endonuclease G downstream of Bax-mediated opening of pores in the mitochondrial membrane (Arnoult et al, 2003).…”

“…It has been suggested that EGF-induced apoptosis in A431 cells requires STAT1 activation followed by induction of the cyclin-dependent kinase inhibitor p21 WAF1/CIP1 (Chin et al, 1996). While it was proposed that EGFR activation stimulates expression of caspase 1 (Chin et al, 1997), recent work also suggests that EGF-induced apoptosis may proceed through a caspase-independent pathway (Fombonne et al, 2004).…”

Bax activation and translocation to mitochondria mediate EGF-induced programmed cell death

“…Although EGFR appears to be amplified and activated in many cancers, its role in the malignant phenotype is not entirely clear (27). In most cells EGF is growth stimulatory and anti-apoptotic; however, a number of tumor cell lines have been shown to be killed by this peptide through unknown mechanisms (28,29). Interestingly, EGFR and its homologue HER2 have been reported to control various TGF-␤ responses both in vitro and in vivo (30 -34).…”

Novel Permissive Role of Epidermal Growth Factor in Transforming Growth Factor β (TGF-β) Signaling and Growth Suppression