Robyn H. Moore scite author profile

Robyn H. Moore

2Publications

22Citation Statements Received

159Citation Statements Given

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University of Maryland, Baltimore

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Human bile acid transporter ASBT (SLC10A2) forms functional non-covalent homodimers and higher order oligomers

Chothe

Czuba

Moore

et al. 2018

Biochimica et Biophysica Acta (BBA) - Biomembranes

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The human apical sodium-dependent bile acid transporter, hASBT/SLC10A2, plays a central role in cholesterol homeostasis via the efficient reabsorption of bile acids from the distal ileum. hASBT has been shown to self-associate in higher order complexes, but while the functional role of endogenous cysteines has been reported, their implication in the oligomerization of hASBT remains unresolved. Here, we determined the self-association architecture of hASBT by site-directed mutagenesis combined with biochemical, immunological and functional approaches. We generated a cysteine-less form of hASBT by creating point mutations at all 13 endogenous cysteines in a stepwise manner. Although Cysless hASBT had significantly reduced function correlated with lowered surface expression, it featured an extra glycosylation site that facilitated its differentiation from wt-hASBT on immunoblots. Decreased protein expression was associated with instability and subsequent proteasome-dependent degradation of Cysless hASBT protein. Chemical cross-linking of wild-type and Cysless species revealed that hASBT exists as an active dimer and/or higher order oligomer with apparently no requirement for endogenous cysteine residues. This was further corroborated by co-immunoprecipitation of differentially tagged (HA-, Flag-) wild-type and Cysless hASBT. Finally, Cysless hASBT exhibited a dominant-negative effect when co-expressed with wild-type hASBT which validated heterodimerization/oligomerization at the functional level. Combined, our data conclusively demonstrate the functional existence of hASBT dimers and higher order oligomers irrespective of cysteine-mediated covalent bonds, thereby providing greater understanding of its topological assembly at the membrane surface.

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Transmembrane Domain V Plays a Stabilizing Role in the Function of Human Bile Acid Transporter SLC10A2

2013

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The human apical sodium-dependent bile acid transporter (hASBT, SLC10A2), primarily expressed in the ileum, is involved in both the recycling of bile acids and cholesterol homeostasis. In this study, the structure-function relationship of transmembrane domain 5 (TM5) residues involved in transport is elucidated. Cysteine scanning mutagenesis of each consecutive residue on TM5 resulted in 96% of mutants with a significantly decreased transport activity although each was expressed at the cell surface. Specifically, G197 and I208 were no longer functional and G201 and G212 functioned at less than 10% upon cysteine mutation. Interestingly, each of these exists along one face of the helix. Studies suggest that neither G201 nor G212 are on the substrate pathway. Conservative alanine mutations of the four residues displayed a higher activity in all but G197A, indicating its functional importance. G197 and G201 form a GxxxG motif, which has been found to be important in helix-helix interactions. According to our model, G197 and G201 face TM4 residues G179 and P175 respectively. Similarly, G212 faces G237, which forms part of a GxxxG domain in TM6. It is possible that these GxxxG domains and their interacting partners are responsible for maintaining the structure of the helices and their interactions with one another. I205 and I208 are both in positions to anchor the GxxxG domains and direct the change in interaction of TM5 from TM4 to TM6. Combined, the results suggest that residues along TM5 are critical for ASBT function but are not directly involved in substrate translocation.

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Robyn H. Moore

Human bile acid transporter ASBT (SLC10A2) forms functional non-covalent homodimers and higher order oligomers

Transmembrane Domain V Plays a Stabilizing Role in the Function of Human Bile Acid Transporter SLC10A2

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