In vitro and in vivo changes in human complement caused by silage. | Zendy

S A Olenchock | Zendy; John J. May | Zendy; David S. Pratt | Zendy; David Lewis | Zendy; J C Mull | Zendy; Lorann Stallones | Zendy

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In vitro and in vivo changes in human complement caused by silage.

Author(s) -

S A Olenchock,

John J. May,

David S. Pratt,

David Lewis,

J C Mull,

Lorann Stallones

Publication year - 1986

Publication title -

environmental health perspectives

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.257

H-Index - 282

eISSN - 1552-9924

pISSN - 0091-6765

DOI - 10.1289/ehp.866691

Subject(s) - silage , in vivo , complement system , in vitro , complement (music) , chemistry , hemolysis , alternative complement pathway , immunology , biology , biochemistry , antibody , food science , microbiology and biotechnology , complementation , gene , phenotype

Aqueous extracts of silage samples from four farms in up-state New York were reacted in vitro with normal human serum. Hemolytic levels of complement component C3 were consumed in a dose-dependent fashion, and the four extracts differed in their relative activity rankings. Studies with chelated serum indicate that the alternative complement pathway is involved in the activation, and the active fragment C3b was demonstrated. Serum levels of hemolytic C3 and C4 in vivo were quantified before and after farmers performed their normal silo unloading operations. Although the study groups were small, suggestive evidence of in vivo complement consumption was found. IgE-related allergy did not appear to be of significance to the study groups. Complement activation may be an initiator of or contributor to adverse reactions in farmers who are exposed to airborne silage dusts.

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