Affiliation:
1. Dermatology,1 Kumamoto University School of Medicine, Kumamoto 860, Japan
2. Departments of Microbiology2 and
Abstract
ABSTRACT
Involvement of bradykinin generation in bacterial invasion was examined by using a gram-negative bacillus,
Vibrio vulnificus
, which is known to invade the blood circulatory system and cause septicemia.
V. vulnificus
was injected intraperitoneally (i.p.) into mice with or without bradykinin or a bradykinin (B2 receptor) antagonist. Dissemination of
V. vulnificus
from peritoneal septic foci to the circulating blood was assessed by counting of viable bacteria in venous blood by use of the colony-forming assay. Intravascular dissemination of
V. vulnificus
in mice was significantly potentiated by simultaneous injection with bradykinin but was markedly reduced by coadministration with the B2 antagonist
d
-Arg,[Hyp
3
, Thi
5,8
,
d
-Phe
7
]-bradykinin. Furthermore,
V. vulnificus
lethality was significantly increased when bradykinin was administered simultaneously with the bacillus, whereas it was definitely suppressed by treatment with
d
-Arg,[Hyp
3
, Thi
5,8
,
d
-Phe
7
]-bradykinin. Similarly, ovomacroglobulin, a potent inhibitor of the
V. vulnificus
protease, showed a strong suppressive effect on the
V. vulnificus
septicemia. We also confirmed appreciable bradykinin production in the primary septic foci in the mouse peritoneal cavity after i.p. inoculation with
V. vulnificus
. It is thus concluded that bradykinin generation in infectious foci is critically involved in facilitation of intravascular dissemination of
V. vulnificus.
Publisher
American Society for Microbiology
Subject
Infectious Diseases,Immunology,Microbiology,Parasitology
Cited by
46 articles.
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