Rinske van de Vorstenbosch scite author profile

The small GTPase Rab6 is a key regulator in the retrograde transfer from endosomes via the Golgi to the ER. Three isoforms of Rab6 have been identified, the ubiquitously expressed Rab6A and Rab6A', and the brain specific Rab6B. Recent studies have shown that Rab6A' is the major isoform regulating this retrograde transport. Cytoplasmic dynein is the main motor protein complex for this transport. Dynein consists of two heavy chains, two intermediate chains, four light intermediate chains and several light chains, called roadblock/LC7 proteins or DYNLRB proteins. In mammalian cells two light chain isoforms have been identified, DYNLRB1 and DYNLRB2. We here show with yeast-two-hybrid, co-immunoprecipitation and pull down studies that DYNLRB1 specifically interacts with all three Rab6 isoforms and co-localises at the Golgi. This is the first example of a direct interaction between Rab6 isoforms and the dynein complex. Pull down experiments showed further preferred association of DYNLRB1 with GTP-bound Rab6A and interestingly GDP-bound Rab6A' and Rab6B. In addition DYNLRB1 was found in the Golgi apparatus where it co-localises with EYFP-Rab6 isoforms. DYNLRB is a putative modulator of the intrinsic GTPase activity of GTP-binding proteins. In vitro we were not able to reproduce this effect on Rab6 GTPase activity.

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Characterization of multiple transcripts and isoforms derived from the mouse protein tyrosine phosphatase gene Ptprr

Chirivi¹,

Dilaver²,

Vorstenbosch³

et al. 2004

Genes to Cells

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DMPK protein isoforms are differentially expressed in myogenic and neural cell lineages

et al. 2009

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Myotonic dystrophy type 1 (DM1) is a neuromuscular disorder caused by an unstable (CTG . CAG)n segment in the 3' untranslated region of the myotonic dystrophy protein kinase (DMPK) gene. It is commonly accepted that DMPK mRNA-based toxicity is the main contributor to DM1 manifestations; however, not much is known about the significance of the DMPK protein. To appreciate its normal and possible pathobiological role, we analyzed the patterns of DMPK splice isoform expression in mouse tissues. Long membrane-anchored DMPK dominated in heart, diaphragm, and skeletal muscle, whereas short cytosolic isoforms were highly expressed in bladder and stomach. Both isoform types were present in diverse brain regions. DMPK protein was also detectable in cultured myoblasts, myotubes, cortical astrocytes, and related cell lines of neural or muscle origin, but not in hippocampal neurons. This work identifies DMPK as a kinase with pronounced expression in diverse muscle and neural tissues that are affected in DM1.

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Proteolytic processing of the receptor‐type protein tyrosine phosphatase PTPBR7

et al. 2006

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The single‐copy mouse gene Ptprr gives rise to different protein tyrosine phosphatase (PTP) isoforms in neuronal cells through the use of distinct promoters, alternative splicing, and multiple translation initiation sites. Here, we examined the array of post‐translational modifications imposed on the PTPRR protein isoforms PTPBR7, PTP‐SL, PTPPBSγ42 and PTPPBSγ37, which have distinct N‐terminal segments and localize to different parts of the cell. All isoforms were found to be short‐lived, constitutively phosphorylated proteins. In addition, the transmembrane isoform, PTPBR7, was subject to N‐terminal proteolytic processing, in between amino acid position 136 and 137, resulting in an additional, 65‐kDa transmembrane PTPRR isoform. Unlike for some other receptor‐type PTPs, the proteolytically produced N‐terminal ectodomain does not remain associated with this PTPRR‐65. Shedding of PTPBR7‐derived polypeptides at the cell surface further adds to the molecular complexity of PTPRR biology.

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