Cell specific transformation by c-fms activating loop mutations is attributable to constitutive receptor degradation

Morley, G M; Uden, Mark; Gullick, WJ; Dibb, Nick J.

doi:10.1038/sj.onc.1202646

Cited by 25 publications

(22 citation statements)

References 44 publications

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“…Our results add support to the evidence that MT and certain growth factor receptors can transform fibroblasts only if correctly trafficked to the plasma membrane (2,28,38). Further investigation of this process promises to uncover novel targets for cancer drug development.…”

Section: Discussionsupporting

confidence: 74%

Polyomavirus Middle T-Antigen Is a Transmembrane Protein That Binds Signaling Proteins in Discrete Subcellular Membrane Sites

Zhou

Ichaso

Adamarek

et al. 2011

J Virol

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Murine polyomavirus middle T-antigen (MT) induces tumors by mimicking an activated growth factorreceptor. An essential component of this action is a 22-amino-acid hydrophobic region close to the C terminus which locates MT to cell membranes. Here, we demonstrate that this sequence is a transmembrane domain (TMD) by showing that a hemagglutinin (HA) tag added to the MT C terminus is exposed on the outside of the cells, with the N terminus inside. To determine whether this MT TMD is inserted into the endoplasmic reticulum (ER) membrane, we added the ER retention signal KDEL to the MT C terminus (MTKDEL). This mutant protein locates only in the ER, demonstrating that MT does insert into membranes solely at this location. In addition, this ER-located MT failed to transform. Examination of the binding proteins associated with the MTKDEL protein demonstrated that it associates with PP2A and c-Src but fails to interact with ShcA, phosphatidylinositol 3-kinase (PI3K), and phospholipase C-␥1 (PLC-␥1), despite being tyrosine phosphorylated. Additional mutant and antibody studies show that MT binding to PP2A is probably required for MT to efficiently exit the ER and migrate to the plasma membrane though the TMD also plays a role in this relocation. Overall, these data, together with previous publications, illustrate that MT associates with signaling proteins at different sites in its maturation pathway. MT binds to PP2A in the cytoplasm, to c-Src at the endoplasmic reticulum, and to ShcA, PI3K, and PLC-␥1 at subsequent locations en route to the plasma membrane.

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Section: Discussionsupporting

confidence: 74%

Polyomavirus Middle T-Antigen Is a Transmembrane Protein That Binds Signaling Proteins in Discrete Subcellular Membrane Sites

Zhou

Ichaso

Adamarek

et al. 2011

J Virol

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“…24 In murine c-FMS, D802Q, D802R, and D802G were inactivating mutations, whereas all other mutants were active. 19 According to these results, all types of c-KIT or c-FMS mutations, which corresponded to FLT3 D835 mutations found in this study, caused constitutive activation of the receptor, suggesting that D835 mutations have adverse effects on leukemia cells. This is further supported by the report that Tyr and Val substitutions for Asp, which occupy most of the mutations found in this study (27 of 32, 84%), had the strongest kinase activity in c-KIT.…”

Section: Discussionmentioning

confidence: 94%

“…17,18 This mutation is thought to cause constitutive activation by triggering the A-loop into an active conformation. Since this Asp codon is highly conserved in RTKs, and substitutions to Tyr or Val in murine c-FMS and murine FLT3 result in constitutive activation of the receptors, 19,20 the Asp within the A-loop is likely to be a key regulatory residue of the RTKs.…”

Section: Introductionmentioning

confidence: 99%

Activating mutation of D835 within the activation loop of FLT3 in human hematologic malignancies

Yamamoto

Kiyoi

Nakano

et al. 2001

Blood

1,024

966

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“…This suggestion is supported by the fact that ECD mutants in Rat2 cells are able to form colonies in soft-agar, whereas PTD mutants demonstrate a clear differentiation capacity program associated with limited oncogenic activity. This incapacity of PTD mutants to transform cells was also reported for other PTD mutants of class III receptors FMS 40 and FLT3. 41 PTD mutants are either not or only rarely observed in dog MCT and human GIST, confirming the lack of agressivity of this class of mutants.…”

Section: Differences In Functional Activity Between Ptd and Ecd Mutantsmentioning

confidence: 86%

Pediatric mastocytosis–associated KIT extracellular domain mutations exhibit different functional and signaling properties compared with KIT-phosphotransferase domain mutations

Yang

Letard

Borge

et al. 2010

Blood

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Compared with adults, pediatric mastocytosis has a relatively favorable prognosis. Interestingly, a difference was also observed in the status of c-kit mutations according to the age of onset. Although most adult patients have a D 816 V mutation in phosphotransferase domain (PTD), we have described that half of the children carry mutations in extracellular domain (ECD). KIT-ECD versus KIT-PTD mutants were introduced into rodent Ba/F3, EML, Rat2, and human TF1 cells to investigate their biologic effect. Both ECD and PTD mutations induced constitutive receptor autophosphorylation and ligandindependent proliferation of the 3 hematopoietic cells. Unlike ECD mutants, PTD mutants enhanced cluster formation and up-regulated several mast cell-related antigens in Ba/F3 cells. PTD mutants failed to support colony formation and erythropoietin-mediated erythroid differentiation. ECD and PTD mutants also displayed distinct whole-genome transcriptional profiles in EML cells. We observed differences in their signaling properties: they both activated STAT, whereas AKT was only activated by ECD mutants. Consistently, AKT inhibitor suppressed ECD mutant-dependent proliferation, clonogenicity, and erythroid differentiation. Expression of myristoylated AKT restored erythroid differentiation in EML-PTD cells, suggesting the differential role of AKT in those mutants. Overall, our study implied different pathogenesis of pediatric versus adult mastocytosis, which might explain their diverse phenotypes. (Blood.

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Cell specific transformation by c-fms activating loop mutations is attributable to constitutive receptor degradation

Cited by 25 publications

References 44 publications

Polyomavirus Middle T-Antigen Is a Transmembrane Protein That Binds Signaling Proteins in Discrete Subcellular Membrane Sites

Polyomavirus Middle T-Antigen Is a Transmembrane Protein That Binds Signaling Proteins in Discrete Subcellular Membrane Sites

Activating mutation of D835 within the activation loop of FLT3 in human hematologic malignancies

Pediatric mastocytosis–associated KIT extracellular domain mutations exhibit different functional and signaling properties compared with KIT-phosphotransferase domain mutations

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