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Infection and Immunity, November 2001, p. 6683-6688, Vol. 69, No. 11
Channing Laboratory and Division of
Infectious Diseases, Brigham and Women's
Hospital,1 and Division of Infectious
Diseases, Children's Hospital, Harvard Medical
School,2 Boston, Massachusetts 02115
Received 6 April 2001/Returned for modification 11 July
2001/Accepted 20 August 2001
The cysteine protease of group A streptococci has been suggested to
contribute to the pathogenesis of invasive infection through degradation of host tissue, activation of the host inflammatory response, release of protective molecules from the bacterial cell surface, or other mechanisms. However, studies of the effects on
virulence of inactivating the cysteine protease gene
speB have yielded conflicting results. In some reports,
a speB mutant was relatively avirulent in mouse models
of invasive infection whereas little or no attenuation of virulence was
observed in other studies of similar mutant strains. Possible reasons
for these discordant results include differences in the streptococcal
strains from which the speB mutants were derived,
differences in the infection models employed, or unintended effects on
another virulence determinant(s) that arose during the derivation of a
speB mutant. We attempted to clarify these issues by
characterizing the phenotypic properties and relative virulence in mice
of two speB mutant strains, both derived from wild-type
strain AM3: speB mutant AM3speB, which has been shown to
be markedly attenuated in virulence in mice after intraperitoneal or
subcutaneous challenge, and AM3speB
0019-9567/01/$04.00+0 DOI: 10.1128/IAI.69.11.6683-6686.2001
Copyright © 2001, American Society for Microbiology. All rights reserved.
Absence of a Cysteine Protease Effect on Bacterial
Virulence in Two Murine Models of Human Invasive Group A
Streptococcal Infection
, a new mutant strain derived for
this investigation. Both mutant strains were negative for protease
activity, as expected, and both produced wild-type amounts of type 3 M
protein and streptolysin O. However, AM3speB produced significantly
less cell-associated hyaluronic acid capsule than did parent strain AM3
or strain AM3speB. Compared to wild-type strain AM3, AM3speB was
more sensitive to opsonophagocytic killing in vitro and was
significantly less virulent in mice after intraperitoneal challenge. By
contrast, AM3speB was fully resistant to phagocytosis and did not
differ significantly from the wild-type strain in mouse virulence after
an intraperitoneal or subcutaneous challenge. We concluded that
previous reports attributing loss of virulence in strain AM3speB to
inactivation of speB are in error. Within the
limitations of the models used, we found no effect of cysteine protease
on invasive streptococcal infection.
*
Corresponding author. Mailing address: Channing
Laboratory, 181 Longwood Ave., Boston, MA 02115. Phone: (617) 525-2242. Fax: (617) 731-1541. E-mail:
cashbaugh{at}channing.harvard.edu.
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