Structural Basis for Carbohydrate Recognition and Anti-inflammatory Modulation by Gastrointestinal Nematode Parasite Toxascaris leonina Galectin

Structural Basis for Carbohydrate Recognition and Anti-inflammatory Modulation by Gastrointestinal Nematode Parasite Toxascaris leonina Galectin

Toxascaris leonina galectin (Tl-gal) is a galectin-9 homologue protein isolated from an adult worm of the canine gastrointestinal nematode parasite, and Tl-gal-vaccinated challenge can inhibit inflammation in inflammatory bowel disease-induced mice. We determined the first X-ray structures of full-l...

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Veröffentlicht in:The Journal of biological chemistry 2016-12, Vol.291 (49), p.25326-25338
Hauptverfasser: Hwang, Eun Young, Jeong, Mi Suk, Park, Sang Kyun, Ha, Sung Chul, Yu, Hak Sun, Jang, Se Bok
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Sprache:eng
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Amino Acid Motifs
Amino Acid Substitution
Animals
Anti-Inflammatory Agents - chemistry
carbohydrate
Carbohydrates - chemistry
crystal structure
Dogs
enzyme mutation
galectin
Galectins - chemistry
Galectins - genetics
Helminth Proteins - chemistry
Helminth Proteins - genetics
inflammation
Mice
Mutation, Missense
Protein Structure and Folding
Toxascaris - chemistry
Toxascaris - genetics
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container_end_page 25338
container_issue 49
container_start_page 25326
container_title The Journal of biological chemistry
container_volume 291
creator Hwang, Eun Young
Jeong, Mi Suk
Park, Sang Kyun
Ha, Sung Chul
Yu, Hak Sun
Jang, Se Bok
description Toxascaris leonina galectin (Tl-gal) is a galectin-9 homologue protein isolated from an adult worm of the canine gastrointestinal nematode parasite, and Tl-gal-vaccinated challenge can inhibit inflammation in inflammatory bowel disease-induced mice. We determined the first X-ray structures of full-length Tl-gal complexes with carbohydrates (lactose, N-acetyllactosamine, lacto-N-tetraose, sialyllactose, and glucose). Bonds were formed on concave surfaces of both carbohydrate recognition domains (CRDs) in Tl-gal. All binding sites were found in the HXXXR and WGXEER motifs. Charged Arg61/Arg196 and Glu80/Glu215 on the conserved motif of Tl-gal N-terminal CRD and C-terminal CRD are critical amino acids for recognizing carbohydrate binding, and the residues can affect protein folding and structure. The polar amino acids His, Asn, and Trp are also important residues for the interaction with carbohydrates through hydrogen bonding. Hemagglutination activities of Tl-gal were inhibited by interactions with carbohydrates and mutations. We found that the mutation of Tl-gal (E80A/E215A) at the carbohydrate binding region induced protein aggregation and could be caused in many diseases. The short linker region between the N-terminal and C-terminal CRDs of Tl-gal was very stable against proteolysis and maintained its biological activity. This structural information is expected to elucidate the carbohydrate recognition mechanism of Tl-gal and improve our understanding of anti-inflammatory mediators and modulators of immune response.
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The short linker region between the N-terminal and C-terminal CRDs of Tl-gal was very stable against proteolysis and maintained its biological activity. 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The short linker region between the N-terminal and C-terminal CRDs of Tl-gal was very stable against proteolysis and maintained its biological activity. 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We determined the first X-ray structures of full-length Tl-gal complexes with carbohydrates (lactose, N-acetyllactosamine, lacto-N-tetraose, sialyllactose, and glucose). Bonds were formed on concave surfaces of both carbohydrate recognition domains (CRDs) in Tl-gal. All binding sites were found in the HXXXR and WGXEER motifs. Charged Arg61/Arg196 and Glu80/Glu215 on the conserved motif of Tl-gal N-terminal CRD and C-terminal CRD are critical amino acids for recognizing carbohydrate binding, and the residues can affect protein folding and structure. The polar amino acids His, Asn, and Trp are also important residues for the interaction with carbohydrates through hydrogen bonding. Hemagglutination activities of Tl-gal were inhibited by interactions with carbohydrates and mutations. We found that the mutation of Tl-gal (E80A/E215A) at the carbohydrate binding region induced protein aggregation and could be caused in many diseases. The short linker region between the N-terminal and C-terminal CRDs of Tl-gal was very stable against proteolysis and maintained its biological activity. This structural information is expected to elucidate the carbohydrate recognition mechanism of Tl-gal and improve our understanding of anti-inflammatory mediators and modulators of immune response.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>27742836</pmid><doi>10.1074/jbc.M116.743773</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects Amino Acid Motifs
Amino Acid Substitution
Animals
Anti-Inflammatory Agents - chemistry
carbohydrate
Carbohydrates - chemistry
crystal structure
Dogs
enzyme mutation
galectin
Galectins - chemistry
Galectins - genetics
Helminth Proteins - chemistry
Helminth Proteins - genetics
inflammation
Mice
Mutation, Missense
Protein Structure and Folding
Toxascaris - chemistry
Toxascaris - genetics
title Structural Basis for Carbohydrate Recognition and Anti-inflammatory Modulation by Gastrointestinal Nematode Parasite Toxascaris leonina Galectin
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