Carmen Kelly scite author profile

Rab2 requires atypical protein kinase C / (aPKC/) to promote vesicle formation from vesicular tubular clusters (VTCs). The Rab2-generated vesicles are enriched in recycling proteins suggesting that the carriers are retrograde-directed and retrieve transport machinery back to the endoplasmic reticulum. These vesicles also contained the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH). We have previously established that GAPDH is required for membrane transport between the endoplasmic reticulum and the Golgi complex. Moreover, GAPDH is phosphorylated by aPKC/ and binds to the aPKC/ regulatory domain. In this study, we employed a combination of in vivo and in vitro assays and determined that GAPDH also interacts with Rab2. The site of GAPDH interaction was mapped to Rab2 residues 20 -50. In addition to its glycolytic function, GAPDH has multiple intracellular roles. However, the function of GAPDH in the early secretory pathway is unknown. One possibility is that GAPDH ultimately provides energy in the form of ATP. To determine whether GAPDH catalytic activity was critical for transport in the early secretory pathway, a conservative substitution was made at Cys-149 located at the active site, and the mutant was biochemically characterized in a battery of assays. Although GAPDH (C149G) has no catalytic activity, Rab2 recruited the mutant protein to membranes in a quantitative binding assay. GAPDH (C149G) is phosphorylated by aPKC/ and binds directly to Rab2 when evaluated in an overlay binding assay. Importantly, VSV-G transport between the ER and Golgi complex is restored when an in vitro trafficking assay is performed with GAPDH-depleted cytosol and GAPDH (C149G). These data suggest that GAPDH imparts a unique function necessary for membrane trafficking from VTCs that does not require GAPDH glycolytic activity.

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Defective glycosylation of calsequestrin in heart failure

Kiarash

Kelly

Phinney

et al. 2004

Cardiovascular Research

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Broadening of Epitope Recognition During Immune Rejection of ErbB-2-Positive Tumor Prevents Growth of ErbB-2-Negative Tumor

Pilon¹,

Kelly

Wei

2003

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Tumor heterogeneity is a limiting factor in Ag-specific vaccination. Ag-negative variants may arise after tumor cells bearing the immunizing Ags are destroyed. In situ priming to tumor-associated epitopes distinct from and not cross-reactive with the immunizing Ags may be crucial to the ultimate success of cancer vaccination. Immunization of BALB/c mice with DNA encoding wild-type human ErbB-2 (Her-2/neu, E2) or cytoplasmic ErbB-2 (cytE2), activated primarily CD4 or CD8 T cells, respectively, and both vaccines protected against ErbB-2-positive D2F2/E2 tumors. In ≥50% of protected mice, a second challenge of ErbB-2-negative D2F2 tumor cells was rejected. Recognition of non-ErbB-2, tumor-associated Ags was demonstrated by immune cell proliferation upon stimulation with irradiated D2F2 cells. This broadening of epitope recognition was abolished if CD4 T cells were depleted before D2F2/E2 tumor challenge, demonstrating their critical role in Ag priming. Similarly, mice that rejected D2F2/cytE2 tumor cells, which express only MHC I epitopes of ErbB-2, were not protected from a second challenge with D2F2 cells. Depletion of CD8 T cells abolished protection against D2F2, indicating the activation of D2F2-specific CTL. Therefore, long term protection may be achieved by immunization with dominant Ag(s), followed by a general enhancement of CD4 T cell activity to promote priming to multiple tumor-associated Ags.

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Degradation Signals in ErbB-2 Dictate Proteasomal Processing and Immunogenicity and Resist Protection by cis Glycine–Alanine Repeat

Piechocki

Pilon

Kelly

et al. 2001

Cellular Immunology

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Carmen Kelly

Glyceraldehyde-3-phosphate Dehydrogenase Interacts with Rab2 and Plays an Essential Role in Endoplasmic Reticulum to Golgi Transport Exclusive of Its Glycolytic Activity

Defective glycosylation of calsequestrin in heart failure

Broadening of Epitope Recognition During Immune Rejection of ErbB-2-Positive Tumor Prevents Growth of ErbB-2-Negative Tumor

Degradation Signals in ErbB-2 Dictate Proteasomal Processing and Immunogenicity and Resist Protection by cis Glycine–Alanine Repeat

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