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More than just sugars: Conserved oligomeric Golgi complex deficiency causes glycosylation‐independent cellular defects
Author(s) -
Blackburn Jessica B.,
Kudlyk Tetyana,
Pokrovskaya Irina,
Lupashin Vladimir V.
Publication year - 2018
Publication title -
traffic
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.677
H-Index - 130
eISSN - 1600-0854
pISSN - 1398-9219
DOI - 10.1111/tra.12564
Subject(s) - golgi apparatus , cog , glycosylation , biology , microbiology and biotechnology , secretion , phenotype , glycoprotein , knockout mouse , transport protein , biochemistry , endoplasmic reticulum , gene , artificial intelligence , computer science
The conserved oligomeric Golgi (COG) complex controls membrane trafficking and ensures Golgi homeostasis by orchestrating retrograde vesicle trafficking within the Golgi. Human COG defects lead to severe multisystemic diseases known as COG‐congenital disorders of glycosylation (COG‐CDG). To gain better understanding of COG‐CDGs, we compared COG knockout cells with cells deficient to 2 key enzymes, Alpha‐1,3‐mannosyl‐glycoprotein 2‐beta‐ N ‐acetylglucosaminyltransferase and uridine diphosphate‐glucose 4‐epimerase (GALE), which contribute to proper N‐ and O‐glycosylation. While all knockout cells share similar defects in glycosylation, these defects only account for a small fraction of observed COG knockout phenotypes. Glycosylation deficiencies were not associated with the fragmented Golgi, abnormal endolysosomes, defective sorting and secretion or delayed retrograde trafficking, indicating that these phenotypes are probably not due to hypoglycosylation, but to other specific interactions or roles of the COG complex. Importantly, these COG deficiency specific phenotypes were also apparent in COG7‐CDG patient fibroblasts, proving the human disease relevance of our CRISPR knockout findings. The knowledge gained from this study has important implications, both for understanding the physiological role of COG complex in Golgi homeostasis in eukaryotic cells, and for better understanding human diseases associated with COG/Golgi impairment.

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