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Journal of Clinical Microbiology, June 1999, p. 2111-2112, Vol. 37, No. 6
0095-1137/99/$04.00+0
LETTERS TO THE EDITOR
Rapid Immunochromatographic Assay for Diagnosis of
Tuberculosis: Antibodies Detected May Not Be Specific
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LETTER |
We read with interest the letter by Grobusch et al. (3)
on a rapid immunochromatographic assay for the diagnosis of
tuberculosis but wish to present evidence that this test may not be as
specific as they portrayed it to be.
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FIG. 1.
Western blot of mycobacterial lysates with murine MAb 7 to recombinant 38-kDa antigen of M. tuberculosis. Lane M,
low-molecular-mass standards (in kilodaltons; Bio-Rad); lanes 1 to 6;
lysates of M. tuberculosis, M. avium, M. malmoense, M. kansasii, M. intracellulare,
and M. xenopi, respectively. Note the presence of the 38-kDa
antigen in M. tuberculosis, M. malmoense, and
M. intracellulare.
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It was long thought that the 38-kDa antigen of Mycobacterium
tuberculosis was confined to organisms of the M. tuberculosis complex (MTBC) (1). As suggested in the
letter of Grobusch et al., it has therefore been assumed that detection
of antibody to the 38-kDa antigen implies infection (although not
necessarily disease) with M. tuberculosis, M. africanum, M. bovis, or M. microti. The lack
of antibody development after M. bovis BCG vaccination has
been ascribed to the lower expression of the 38-kDa antigen in this
variant (9).
However, Thangaraj and colleagues reported in 1996 (8) the
detection of genes encoding the 38-kDa antigen in a strain of M. intracellulare and the expression of the antigen in this species. They speculated that the possession of a homologue of the M. tuberculosis 38-kDa antigen by M. intracellulare might
be associated with virulence, since M. intracellulare has
the ability to cause disease in immunocompetent hosts, in distinction
to M. avium, which does not possess the antigen. Thangaraj
et al. did not detect the 38-kDa antigen or the appropriate gene
sequence in M. avium, M. paratuberculosis, M. smegmatis, M. fortuitum, M. chelonei, M. leprae, M. kansasii, M. marinum, or M. vaccae. M. malmoense was not
included in these investigations.
We have produced a recombinant 38-kDa antigen in Escherichia
coli as a histidine-tagged fusion protein (7) and used
this to raise a panel of 15 mouse monoclonal antibodies (MAbs) by using standard hybridoma technology (6). Selection was based on
reactivity with the recombinant antigen by enzyme-linked immunosorbent
assay and/or Western blotting of an M. tuberculosis lysate.
To further assess the specificity of the MAbs, they were screened
against lysates of M. avium, M. intracellulare,
M. kansasii, M. malmoense, M. vaccae,
and M. xenopi. Upon immunoblotting, 2 of the 15 MAbs (7 and
29) reacted with a 38-kDa protein in M. intracellulare and 2 MAbs (1 and 7) reacted with a 38-kDa protein in M. malmoense
(Fig. 1). All remaining MAbs were negative against all lysates.
Twenty-one of 23 M. malmoense lysates examined by immunoblotting consistently reacted with both MAbs. The two isolates of
M. malmoense not expressing the 38-kDa antigen are also
atypical when examined by other taxonomic methods, including random
amplified polymorphic DNA analysis (5).
Our results confirm the observations of Thangaraj et al. in relation to
M. intracellulare and strongly suggest that M. malmoense also expresses a homologue of the 38-kDa antigen of
M. tuberculosis. M. malmoense is a recognized
primary pathogen of immunocompetent children and the elderly, and it
has been estimated to cause up to 10% of tuberculosis-like pulmonary
disease in the United Kingdom and other northwest European countries
(2, 4).
We have yet to proceed with studies to detect the gene sequence in
M. malmoense which encodes for the antigen. If such a
sequence is found it will extend the argument of Thangaraj et al.
(8) that possession of the antigen may be associated with
virulence, demonstrating the presence of a common immunodominant
antigen in the three species of mycobacteria (MTBC organisms, M. intracellulare, and M. malmoense) which cause disease
in immunocompetent individuals. These findings may have important
implications for vaccine studies.
However, it is also clear from our results and those of Thangaraj et
al. that the detection of antibodies which react with the 38-kDa
antigen of M. tuberculosis cannot be taken to indicate infection or disease due to MTBC organisms alone, since such antibodies may also be evoked by infection or disease with M. intracellulare or M. malmoense.
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Ellis, M. E.
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Grobusch, M. P.,
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1998.
Rapid immunochromatographic assay for diagnosis of tuberculosis.
J. Clin. Microbiol.
36:3443[Free Full Text].
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Henriques, B.,
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Steward, M.,
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1997.
Production and characterization of a new monoclonal antibody effective in recognizing the CD3 T-cell associated antigen in formalin-fixed embedded tissue.
Histopathology
30:16-22[Medline].
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Studier, F. W.,
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Thangaraj, H. S.,
T. J. Bull,
K. A. De Smet,
M. K. Hill,
D. A. Rouse,
C. Moreno, and J. Ivanyi.
1996.
Duplication of genes encoding the immunodominant 38 kDa antigen in Mycobacterium intracellulare.
FEMS Microbiol. Lett.
144:235-240[Medline].
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Young, D.,
L. Kent,
A. Rees,
J. Lamb, and J. Ivanyi.
1986.
Immunological activity of a 38-kilodalton protein purified from Mycobacterium tuberculosis.
Infect. Immun.
54:177-183[Abstract/Free Full Text].
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| | | | |
Roger Freeman
John Magee
Anne Barratt
Newcastle Regional Public Health Laboratory
Newcastle General
Hospital, Westgate Rd.
Newcastle upon Tyne NE4 6BE, United Kingdom
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| | | | |
Janice Wheeler
Michael Steward
Maureen Lee
Nigel Piggott
Novocastra Laboratories Ltd.
Balliol
Business Park West, Benton Ln.
Newcastle upon Tyne NE12 8EW, United
Kingdom
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AUTHOR'S REPLY |
Wheeler and colleagues provide interesting in vitro data suggesting
that homologues of the M. tuberculosis 38-kDa antigen found
in M. intracellulare and M. malmoense also lead
to antibody production in humans. However, clinical data to support
their findings are lacking so far. If, as speculated by Thangaraj et al. (4), mycobacterial virulence is enhanced by the
possession of a homologue of the M. tuberculosis 38-kDa
antigen, skepticism arises from the lack of demonstration of the
antigen and the appropriate gene sequence, at least for M. kansasii, another species well capable of causing
tuberculosis-like disease in immunocompetent individuals
(2).
The sera of immunocompetent individuals investigated in our study
(3) cited by Wheeler et al. were from patients with clinical signs and symptoms suggesting tuberculosis, and in all of those who
were antibody positive, diagnosis was confirmed by culture
thus showing that in our small collective seropositivity indicated not
merely the presence of the antigen (infection) but overt disease caused
by M. tuberculosis. In one case, specimens growing
non-M. tuberculosis mycobacteria stemmed from an
immunocompetent seronegative patient with tuberculosis-like pulmonary
disease caused by M. kansasii. Unfortunately there was no
case of M. malmoense infection among our patients, which
would have given at least anecdotal evidence for or against the notion
of Wheeler et al. As reported, Cole et al. (1) and Zhou et
al. (5) found specificities of 92 to 93% for the rapid
immunochromatographic assay in large trials performed in China, but
isolation of mycobacteria other than M. tuberculosis in
those cases labelled false positive were not reported.
Further research should aim to elucidate whether the 38-kDa antigen
homologues identified in various mycobacteria are a common feature of
species capable of causing tuberculosis-like disease, and diagnostic
trials should allow a judgement on whether human antibody response to
the 38-kDa antigen should serve as an indicator for mycobacterial
disease requiring treatment, rather than only for tuberculosis, in the
nonimmunocompromised patient.
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REFERENCES |
| 1.
|
Cole, R. A.,
H. M. Lu,
Y. Z. Shi,
J. Wang,
T. De-Hua, and A. T. Zhou.
1996.
Clinical evaluation of a rapid immunochromatographic assay based on the 38 kDa antigen of Mycobacterium tuberculosis on patients with pulmonary tuberculosis in China.
Tuberc. Lung Dis.
77:363-368[Medline].
|
| 2.
|
Evans, S. A.,
A. Colville,
A. J. Evans,
A. J. Crisp, and I. D. A. Johnston.
1996.
Pulmonary Mycobacterium kansasii infection: comparison of the clinical features, treatment and outcome with pulmonary tuberculosis.
Thorax
51:1248-1252[Abstract/Free Full Text].
|
| 3.
|
Grobusch, M. P.,
D. Schürmann,
S. Schwenke,
D. Teichmann, and E. Klein.
1998.
Rapid immunochromatographic assay for diagnosis of tuberculosis.
J. Clin. Microbiol.
36:3443.
|
| 4.
|
Thangaraj, H. S.,
T. J. Bull,
K. A. De Smet,
M. K. Hill,
D. A. Rouse,
C. Moreno, and J. Ivanyi.
1996.
Duplication of genes encoding the immunodominant 38 kDa antigen in Mycobacterium intracellulare.
FEMS Microbiol. Lett.
144:235-240.
|
| 5.
|
Zhou, A. T.,
W. L. Ma,
P. Y. Zhang, and R. A. Cole.
1996.
Detection of pulmonary and extrapulmonary tuberculosis patients with the 38-kilodalton antigen from Mycobacterium tuberculosis in a rapid membrane-based assay.
Clin. Diagn. Lab. Immunol.
3:337-341[Abstract].
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| | | | |
Martin P. Grobusch
Medical Clinic (Infectious Diseases)
Charité/Campus Virchow Hospital
Humboldt University
13353 Berlin, Germany
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Journal of Clinical Microbiology, June 1999, p. 2111-2112, Vol. 37, No. 6
0095-1137/99/$04.00+0
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