Dysregulated proteome and N‐glycoproteome in ALG1‐deficient fibroblasts

Budhraja, Rohit; Joshi, Neha; Radenkovic, Silvia; Kozicz, Tamas; Morava, Eva; Pandey, Akhilesh

doi:10.1002/pmic.202400012

Proteomics

2024

DOI: 10.1002/pmic.202400012

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Dysregulated proteome and N‐glycoproteome in ALG1‐deficient fibroblasts

Rohit Budhraja,

Neha Joshi,

Silvia Radenkovic

et al.

Abstract: Asparagine‐linked glycosylation 1 protein is a β‐1,4‐mannosyltransferase, is encoded by the ALG1 gene, which catalyzes the first step of mannosylation in N‐glycosylation. Pathogenic variants in ALG1 cause a rare autosomal recessive disorder termed as ALG1‐CDG. We performed a quantitative proteomics and N‐glycoproteomics study in fibroblasts derived from patients with one homozygous and two compound heterozygous pathogenic variants in ALG1. Several proteins that exhibited significant upregulation included insul… Show more

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Cited by 2 publications

References 32 publications

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Liposome-encapsulated mannose-1-phosphate therapy improves global N-glycosylation in different congenital disorders of glycosylation

Budhraja,

Radenkovic,

Jain

et al. 2024

Molecular Genetics and Metabolism

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Liposome-encapsulated mannose-1-phosphate therapy improves global N-glycosylation in different congenital disorders of glycosylation

Budhraja,

Radenkovic,

Jain

et al. 2024

Molecular Genetics and Metabolism

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N-glycoproteomic and proteomic alterations in SRD5A3-deficient fibroblasts

Garapati,

Ranatunga,

Joshi

et al. 2024

Glycobiology

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SRD5A3-CDG is a congenital disorder of glycosylation (CDG) resulting from pathogenic variants in SRD5A3 and follows an autosomal recessive inheritance pattern. The enzyme encoded by SRD5A3, polyprenal reductase, plays a crucial role in synthesizing lipid precursors essential for N-linked glycosylation. Despite insights from functional studies into its enzymatic function, there remains a gap in understanding global changes in patient cells. We sought to identify N-glycoproteomic and proteomic signatures specific to SRD5A3-CDG, potentially aiding in biomarker discovery and advancing our understanding of disease mechanisms. Using tandem mass tag (TMT)-based relative quantitation, we analyzed fibroblasts derived from five patients along with control fibroblasts. N-glycoproteomics analysis by liquid chromatography–tandem mass spectrometry (LC–MS/MS) identified 3,047 glycopeptides with 544 unique N-glycosylation sites from 276 glycoproteins. Of these, 418 glycopeptides showed statistically significant changes with 379 glycopeptides decreased (P < 0.05) in SRD5A3-CDG patient-derived samples. These included high mannose, complex and hybrid glycan-bearing glycopeptides. High mannose glycopeptides from protocadherin Fat 4 and integrin alpha-11 and complex glycopeptides from CD55 were among the most significantly decreased glycopeptides. Proteomics analysis led to the identification of 5,933 proteins, of which 873 proteins showed statistically significant changes. Decreased proteins included cell surface glycoproteins, various mitochondrial protein populations and proteins involved in the N-glycosylation pathway. Lysosomal proteins such as N-acetylglucosamine-6-sulfatase and procathepsin-L also showed reduced levels of phosphorylated mannose-containing glycopeptides. Our findings point to disruptions in glycosylation pathways as well as energy metabolism and lysosomal functions in SRD5A3-CDG, providing clues to improved understanding and management of patients with this disorder.

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Dysregulated proteome and N‐glycoproteome in ALG1‐deficient fibroblasts

Cited by 2 publications

References 32 publications

Liposome-encapsulated mannose-1-phosphate therapy improves global N-glycosylation in different congenital disorders of glycosylation

Liposome-encapsulated mannose-1-phosphate therapy improves global N-glycosylation in different congenital disorders of glycosylation

N-glycoproteomic and proteomic alterations in SRD5A3-deficient fibroblasts

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