Proteomic Analysis of Amyloid Corneal Aggregates from TGFBI-H626R Lattice Corneal Dystrophy Patient Implicates Serine-Protease HTRA1 in Mutation-Specific Pathogenesis of TGFBIp

Proteomic Analysis of Amyloid Corneal Aggregates from TGFBI-H626R Lattice Corneal Dystrophy Patient Implicates Serine-Protease HTRA1 in Mutation-Specific Pathogenesis of TGFBIp

TGFBI-associated corneal dystrophies are inherited disorders caused by TGFBI gene variants that promote deposition of mutant protein (TGFBIp) as insoluble aggregates in the cornea. Depending on the type and position of amino acid substitution, the aggregates may be amyloid fibrillar, amorphous globu...

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Published in:Journal of proteome research Vol. 16; no. 8; pp. 2899 - 2913
Main Authors: Venkatraman, Anandalakshmi, Dutta, Bamaprasad, Murugan, Elavazhagan, Piliang, Hao, Lakshminaryanan, Rajamani, Sook Yee, Anita Chan, Pervushin, Konstantin V, Sze, Siu Kwan, Mehta, Jodhbir S
Format: Journal Article
Language:English
Published: United States American Chemical Society 04-08-2017
Subjects:
Adult
Amino Acid Sequence
Amyloid - analysis
Amyloid - chemistry
Amyloid - metabolism
Apolipoproteins A - analysis
Apolipoproteins E - analysis
Asian People
Case-Control Studies
Chromatography, Liquid
Corneal Dystrophies, Hereditary - genetics
Corneal Dystrophies, Hereditary - metabolism
Corneal Dystrophies, Hereditary - pathology
Female
High-Temperature Requirement A Serine Peptidase 1 - analysis
Humans
Male
Mutation
Protein Aggregation, Pathological - genetics
Proteomics - methods
Tandem Mass Spectrometry
Transforming Growth Factor beta1 - genetics
apolipoprotein
TGFBIp
amyloid fibrils
HTRA1
lattice corneal dystrophies
TGFBI
laser capture microdissection
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Summary:TGFBI-associated corneal dystrophies are inherited disorders caused by TGFBI gene variants that promote deposition of mutant protein (TGFBIp) as insoluble aggregates in the cornea. Depending on the type and position of amino acid substitution, the aggregates may be amyloid fibrillar, amorphous globular or both, but the molecular mechanisms that drive these different patterns of aggregation are not fully understood. In the current study, we report the protein composition of amyloid corneal aggregates from lattice corneal dystrophy patients of Asian origin with H626R and R124C mutation and compared it with healthy corneal tissues via LC–MS/MS. We identified several amyloidogenic, nonfibrillar amyloid associated proteins and TGFBIp as the major components of the deposits. Our data indicates that apolipoprotein A-IV, apolipoprotein E, and serine protease HTRA1 were significantly enriched in patient deposits compared to healthy controls. HTRA1 was also found to be 7-fold enriched in the amyloid deposits of patients compared to the controls. Peptides sequences (G511DNRFSM­LVAAIQS­AGLTETLNR533 and Y571HIGDE­ILVSGGI­GALVR588) derived from the fourth FAS-1 domain of TGFBIp were enriched in the corneal aggregates in a mutation-specific manner. Biophysical studies of these two enriched sequences revealed high propensity to form amyloid fibrils under physiological conditions. Our data suggests a possible proteolytic processing mechanism of mutant TGFBIp by HTRA1 and peptides generated by mutant protein may form the β-amyloid core of corneal aggregates in dystrophic patients.
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ISSN:1535-3893
1535-3907
DOI:10.1021/acs.jproteome.7b00188