Group:MUZIC:Myopodin
From Proteopedia
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==MYOPODIN== | ==MYOPODIN== | ||
| - | Myopodin protein, encoded by the gene SYNPO2[http://www.uniprot.org/uniprot/Q9UMS6], was first describe in 2001 by Weins ''et al.'' is widely expressed in striated- and smooth-muscle cells <ref> PMID:11673475 </ref> PMID:12869577 </ref> (Weins et al., 2001; Nelander et al., 2003), several reports described the expression of alternative myopodin isoforms in other human cells or tissues PMID:18371299 </ref> PMID:11696420</ref> PMID:12917631 </ref> PMID:18588515 </ref> (De Ganck et al., 2008; Lin et al., 2001; Sanchez-Carbayo et al., 2003; Schroeter et al., 2008). Myopodin is a dual compartment protein that displays actin-bundling activity and redistributes between the nucleus and the cytoplasm in a differentiation-dependent and stress-induced fashion. The gene encoding Myopodin protein its form from 6 exons and codify for a protein of 80 kDa in skeletal muscle and 95kDa in the heart, the cause of this size difference remains to be established, but for several reasons, it appears to be due to post-translational modifications. Beyond the first 3 identified Isoforms, another 3 isoforms have been recently identify PMID:20554076 </ref> (Linneman et al. JCB 2010). | + | Myopodin protein, encoded by the gene SYNPO2[http://www.uniprot.org/uniprot/Q9UMS6], was first describe in 2001 by Weins ''et al.'' is widely expressed in striated- and smooth-muscle cells <ref> PMID:11673475 </ref> <ref> PMID:12869577 </ref> (Weins et al., 2001; Nelander et al., 2003), several reports described the expression of alternative myopodin isoforms in other human cells or tissues PMID:18371299 </ref> PMID:11696420</ref> PMID:12917631 </ref> PMID:18588515 </ref> (De Ganck et al., 2008; Lin et al., 2001; Sanchez-Carbayo et al., 2003; Schroeter et al., 2008). Myopodin is a dual compartment protein that displays actin-bundling activity and redistributes between the nucleus and the cytoplasm in a differentiation-dependent and stress-induced fashion. The gene encoding Myopodin protein its form from 6 exons and codify for a protein of 80 kDa in skeletal muscle and 95kDa in the heart, the cause of this size difference remains to be established, but for several reasons, it appears to be due to post-translational modifications. Beyond the first 3 identified Isoforms, another 3 isoforms have been recently identify PMID:20554076 </ref> (Linneman et al. JCB 2010). |
In undifferentiated myoblasts, myopodin is expressed preferentially in the nucleus and only weakly in the cytoplasm. In differentiated myotubes it is incorporated into the Z-disc and shows no detectable nuclear expression. Notably, this redistribution coincides with an increase in protein expression. Together, these findings indicate that myopodin may be involved in the regulation of myocyte differentiation (Weins et al. 2001). Myopodin gene was identified as a tumor suppressor gene that is frequently deleted in aggressive prostate cancer. Expression of myopodin protein suppresses both tumor growth and metastasis in vitro and in vivo. | In undifferentiated myoblasts, myopodin is expressed preferentially in the nucleus and only weakly in the cytoplasm. In differentiated myotubes it is incorporated into the Z-disc and shows no detectable nuclear expression. Notably, this redistribution coincides with an increase in protein expression. Together, these findings indicate that myopodin may be involved in the regulation of myocyte differentiation (Weins et al. 2001). Myopodin gene was identified as a tumor suppressor gene that is frequently deleted in aggressive prostate cancer. Expression of myopodin protein suppresses both tumor growth and metastasis in vitro and in vivo. | ||
Revision as of 14:53, 3 July 2011
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MYOPODIN
Myopodin protein, encoded by the gene SYNPO2[1], was first describe in 2001 by Weins et al. is widely expressed in striated- and smooth-muscle cells [1] [2] (Weins et al., 2001; Nelander et al., 2003), several reports described the expression of alternative myopodin isoforms in other human cells or tissues PMID:18371299 </ref> PMID:11696420</ref> PMID:12917631 </ref> PMID:18588515 </ref> (De Ganck et al., 2008; Lin et al., 2001; Sanchez-Carbayo et al., 2003; Schroeter et al., 2008). Myopodin is a dual compartment protein that displays actin-bundling activity and redistributes between the nucleus and the cytoplasm in a differentiation-dependent and stress-induced fashion. The gene encoding Myopodin protein its form from 6 exons and codify for a protein of 80 kDa in skeletal muscle and 95kDa in the heart, the cause of this size difference remains to be established, but for several reasons, it appears to be due to post-translational modifications. Beyond the first 3 identified Isoforms, another 3 isoforms have been recently identify PMID:20554076 </ref> (Linneman et al. JCB 2010). In undifferentiated myoblasts, myopodin is expressed preferentially in the nucleus and only weakly in the cytoplasm. In differentiated myotubes it is incorporated into the Z-disc and shows no detectable nuclear expression. Notably, this redistribution coincides with an increase in protein expression. Together, these findings indicate that myopodin may be involved in the regulation of myocyte differentiation (Weins et al. 2001). Myopodin gene was identified as a tumor suppressor gene that is frequently deleted in aggressive prostate cancer. Expression of myopodin protein suppresses both tumor growth and metastasis in vitro and in vivo.
Myopodin Interactions
Actin was the first binding partner of synaptopodin to be identified PMID:9314539 </ref>(Mundel et al. 1997) and is probably the most important partner. Myopodin has a novel actin binding site (Weins et al. 2001) that was identified by producing truncated fragments from myopodin. The smallest fragment that bound to F-actin contained residues 410–563 of mouse myopodin. Myopodin binds to α-actinin. That interaction has been shown to involve the spectrin filament domain repeat region of α-actinin PMID:16450054 </ref> (Pham and Chalovich 2006). Synaptopodin family members might be involved in the organization and anchoring of actin in the cell and might be necessary for the correct localization of α-actinin. That is supported by recent findings that myopodin expression precedes α-actinin expression PMID:20554076 </ref> (Linnemann et al. 2010). A newly identified filamin-binding region within the molecule, by performing yeast two-hybrid assays using carboxy-terminally and/or amino-terminally truncated constructs PMID:20554076 </ref> (Linnemann et al. 2010). The interaction was mapped to a fragment encompassing amino acids 240–521 of myopodin, i.e. a region that contains two of the previously described homology regions shared by myopodin and synaptopodin PMID:11696420</ref> (Lin et al., 2001). The alternative transcription offers the possibility of expression of two isoforms of Myopodin, which probably differ in their binding properties for these PDZ binding domain detected, however, there is preliminary evidence that the PDZ binding domain from Myopodin interacts with C terminal part of Synemin PMID:16631741 </ref> (Vakeel, 2006).
Image:Myopodin interaction with FLNC.jpg.png Image:MYO PDZ BD.pdb
References
- ↑ Weins A, Schwarz K, Faul C, Barisoni L, Linke WA, Mundel P. Differentiation- and stress-dependent nuclear cytoplasmic redistribution of myopodin, a novel actin-bundling protein. J Cell Biol. 2001 Oct 29;155(3):393-404. Epub 2001 Oct 22. PMID:11673475 doi:10.1083/jcb.200012039
- ↑ Nelander S, Mostad P, Lindahl P. Prediction of cell type-specific gene modules: identification and initial characterization of a core set of smooth muscle-specific genes. Genome Res. 2003 Aug;13(8):1838-54. Epub 2003 Jul 17. PMID:12869577 doi:10.1101/gr.1197303
