TY - JOUR
T1 - Molecular cloning and characterization of serine protease inhibitor from food-borne nematode, Gnathostoma spinigerum
AU - Tinyou, Anusorn
AU - Chaimon, Salisa
AU - Phuphisut, Orawan
AU - Kobpornchai, Porntida
AU - Malaithong, Preeyarat
AU - Poodeepiyasawat, Akkarin
AU - Ieamsuwan, Issariya
AU - Ruangsittichai, Jiraporn
AU - Pumirat, Pornpan
AU - Dekumyoy, Paron
AU - Reamtong, Onrapak
AU - Adisakwattana, Poom
N1 - Publisher Copyright:
© 2019 Elsevier B.V.
PY - 2020/4
Y1 - 2020/4
N2 - Gnathostoma spinigerum is a causative agent of human gnathostomiasis and infects people residing in endemic areas as well as travelers. Cutaneous and visceral larval migrants cause clinical manifestations, resulting in severe morbidity and mortality. To survive in hosts, these parasites have evolved various immune evasion mechanisms, including the release of regulatory molecules. Serine protease inhibitors (serpins) that are present in many parasitic helminths are proteins suspected of suppressing host serine protease-related digestion and immune responses. In this study, the serpin secreted by G. spinigerum (GsSerp) was characterized using bioinformatics and molecular biology techniques. The bioinformatics revealed that GsSerp contains 9 helices, 3 β-sheets, and a reactive central loop, which are conserved structures of the serpin superfamily. Recombinant GsSerp (rGsSerp) was expressed in E. coli (molecular weight, 39 kDa) and could inhibit chymotrypsin. Mouse polyclonal antibody against GsSerp could detect the native GsSerp in crude worm antigen but not the excretory–secretory product (ES) of infective-stage larva (aL3Gs). Moreover, the expression of GsSerp in the aL3Gs tissue was located in the hemolymph and intestinal tissue, indicating its role in parasite homeostasis. Our findings may help develop effective strategies for preventing and controlling gnathostomiasis.
AB - Gnathostoma spinigerum is a causative agent of human gnathostomiasis and infects people residing in endemic areas as well as travelers. Cutaneous and visceral larval migrants cause clinical manifestations, resulting in severe morbidity and mortality. To survive in hosts, these parasites have evolved various immune evasion mechanisms, including the release of regulatory molecules. Serine protease inhibitors (serpins) that are present in many parasitic helminths are proteins suspected of suppressing host serine protease-related digestion and immune responses. In this study, the serpin secreted by G. spinigerum (GsSerp) was characterized using bioinformatics and molecular biology techniques. The bioinformatics revealed that GsSerp contains 9 helices, 3 β-sheets, and a reactive central loop, which are conserved structures of the serpin superfamily. Recombinant GsSerp (rGsSerp) was expressed in E. coli (molecular weight, 39 kDa) and could inhibit chymotrypsin. Mouse polyclonal antibody against GsSerp could detect the native GsSerp in crude worm antigen but not the excretory–secretory product (ES) of infective-stage larva (aL3Gs). Moreover, the expression of GsSerp in the aL3Gs tissue was located in the hemolymph and intestinal tissue, indicating its role in parasite homeostasis. Our findings may help develop effective strategies for preventing and controlling gnathostomiasis.
KW - Gnathostoma spinigerum
KW - Recombinant protein
KW - Serine protease
KW - Serine protease inhibitor
UR - http://www.scopus.com/inward/record.url?scp=85077651891&partnerID=8YFLogxK
U2 - 10.1016/j.actatropica.2019.105288
DO - 10.1016/j.actatropica.2019.105288
M3 - Article
C2 - 31811864
AN - SCOPUS:85077651891
SN - 0001-706X
VL - 204
JO - Acta Tropica
JF - Acta Tropica
M1 - 105288
ER -