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Structural basis of heterotetrameric assembly and disease mutations in the human cis-prenyltransferase complex.

ABSTRACT: The human cis-prenyltransferase (hcis-PT) is an enzymatic complex essential for protein N-glycosylation. Synthesizing the precursor of the glycosyl carrier dolichol-phosphate, mutations in hcis-PT cause severe human diseases. Here, we reveal that hcis-PT exhibits a heterotetrameric assembly in solution, consisting of two catalytic dehydrodolichyl diphosphate synthase (DHDDS) and inactive Nogo-B receptor (NgBR) heterodimers. Importantly, the 2.3?Å crystal structure reveals that the tetramer assembles via the DHDDS C-termini as a dimer-of-heterodimers. Moreover, the distal C-terminus of NgBR transverses across the interface with DHDDS, directly participating in active-site formation and the functional coupling between the subunits. Finally, we explored the functional consequences of disease mutations clustered around the active-site, and in combination with molecular dynamics simulations, we propose a mechanism for hcis-PT dysfunction in retinitis pigmentosa. Together, our structure of the hcis-PT complex unveils the dolichol synthesis mechanism and its perturbation in disease.

SUBMITTER: Bar-El ML 

PROVIDER: S-EPMC7573591 | biostudies-literature | 2020 Oct

REPOSITORIES: biostudies-literature

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Structural basis of heterotetrameric assembly and disease mutations in the human cis-prenyltransferase complex.

Bar-El Michal Lisnyansky ML   Vaňková Pavla P   Yeheskel Adva A   Simhaev Luba L   Engel Hamutal H   Man Petr P   Haitin Yoni Y   Giladi Moshe M  

Nature communications 20201019 1

The human cis-prenyltransferase (hcis-PT) is an enzymatic complex essential for protein N-glycosylation. Synthesizing the precursor of the glycosyl carrier dolichol-phosphate, mutations in hcis-PT cause severe human diseases. Here, we reveal that hcis-PT exhibits a heterotetrameric assembly in solution, consisting of two catalytic dehydrodolichyl diphosphate synthase (DHDDS) and inactive Nogo-B receptor (NgBR) heterodimers. Importantly, the 2.3 Å crystal structure reveals that the tetramer assem  ...[more]

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