Chemistry: molecular biology and microbiology – Measuring or testing process involving enzymes or... – Involving antigen-antibody binding – specific binding protein...
Reissue Patent
2000-02-08
2003-04-22
Navarro, Mark (Department: 1645)
Chemistry: molecular biology and microbiology
Measuring or testing process involving enzymes or...
Involving antigen-antibody binding, specific binding protein...
C435S252100, C435S006120, C435S012000, C436S066000
Reissue Patent
active
RE038088
ABSTRACT:
This invention relates to a method for detecting Helicobacter pylori in fetal specimens.
H. pylori is a bacterium that is found in the upper gastrointestinal tract of humans which has been implicated in gastroduodenal diseases such as peptic ulcers, gastritis and other maladies. The bacterium was originally classified as a Campylobacter and then reclassified as a Heliobacter based on more detailed information regarding its ultrastructure and fatty acid composition.
A number of different techniques, both invasive and noninvasive, have been used to detect H. pylori. The invasive techniques involve gastric biopsies and cultures. The noninvasive techniques include a urea breath test, in which the patient is given C-13 or C-14 labelled urea with a beverage, and the detection of H. pylori antibody in sera using antigens in enzyme-linked immunosorbent assays (ELISA). Examples of the latter techniques are found in U.S. Pat. No. 5,262,156 to Aleonohammad and European Patent Application 0 329 570 to Blaser.
Several major antigens have been identified and used in immunoassays in the detection of H. pylori antibodies. However, these assays have not exhibited the specificity and sensitivity that are desired in serodiagnosis. Newell, D. G., et al. Serodian. Immunother. Infec. Dis., 3:1-6 (1989). One problem with of these immunoassays in cross-reactivity. Studies of the dominant antigens in H. pylori, in particular, the putative flagellar protein, which has a molecular weight of 60 Da, have shown that some of these antigen are not specific to H. pylori and also found in other bacteria such as C. jeuni and C. coli. A second problem that has been encountered in designing immunoassays for H. pylori is strain variation. Substantial differences in the antigens has been observed in different strains of H. pylori. These problems preclude designing an assay around the use of a single antigen. The also rule out the use of monclonal antibodies. One approach that has been taken to improving the specificity and selectivity of antibody immunoassays for H. pylori has been to use a mixture of antigens from different H. pylori strains which mixture is enriched with certain antigen fragments. One ELISA which detects H. pylori antibodies in a blood sera is commercially available from Meridian Diagnostics. This assay uses a bacterial whole cell lysate as the antigen.
There are certain disadvantages to using an ELISA which employs antigens to detect the presence of H. pylori antibodies. In particular, the antibody titer in human sera remains high for a prolonged time (in some cases as much as six months) after the infection has been treated. Consequently, a positive test using this ELISA does not necessarily mean that the patient is currently infected and requires treatment for H. pylori infection. When confronted with a positive ELISA, treating physicians often order a gastric biopsy to confirm the presence of the bacteria before initiating antibiotic therapy. Therefor, the antigen-based ELISA does not eliminate the need for the invasive procedure. By contrast, if an immunoassay could be designed for detecting H. pylori antigen instead of the antibody, the need to obtain gastric biopsies to confirm infection could be reduced significantly because the antigen generally can not be detected in a patient within days of its treatment. Thus, there is a need for an ELISA which detects H.pylori antigen and, more particularly, there is a need for an ELISA for detecting H. pylori directly from fecal specimens.
While ELISA's for detecting microorganisms such as C. difficile and adenovirus in fecal specimens are known, in studies of patients with gastric biopsies which are positive for H. pylori, the bacteria ordinarily can not be cultured and isolated from the fecal specimens. This and the problems of cross reactivity and strain variation raised serious doubts that an ELISA could be designed that would be specific for H. pylori and sensitive enough to reliably detect H. pylori antigen directly from a fecal specimen.
SUMMARY OF THE INVENTION
The present invention provides a method for detecting H. pylori in fecal specimens which compares:
(a) dispersing a fecal specimen suspected of carrying H. pylori in a sample diluent;
(b) contacting the fecal specimen in the diluent with a first polyclonal antibody for H. pylori antigen to form a complex of the antibody and the antigen;
(c) separating said specimen from said complex;
(d) exposing the complex to a second polyclonal antibody for said antigen and a portion of the antibody reacting with said complex, one of said first and second antibody being bound to a solid carrier and the other being labelled with a detection agent; and
(e) determining the amount of the labelled antibody and in turn determining the presence of H. pylori antigen in said fecal specimen.
In the preferred embodiment of the invention, the first antibody is bound to a carrier and the second is labelled with an enzyme. Triple sandwich assays are also provided.
The immunoassay will be supplied in the form of a kit including a plate of antibody-coated wells, sample diluent, the labeled antibody, e.g., an enzyme-antibody conjugate, wash buffer and, in the case of an ELISA, a substrate solution.
DETAILED DESCRIPTION
The immunoassay of the present invention employs polyconal antibodies for H. pylori. These antibodies can be obtained from the sera of a sensitized animal. Sensitization can be accomplished by injecting the antigen into an antibody producing species, typically a mammal and preferably a rabbit, goat or cow. Usually as initial injection is given followed by subsequent booster injections to maximize the response. Optimally, the injection regime is in multiple doses given to White New Zealand rabbits. The amount of antigen injected must be adequate to elicit a sufficient amount of antibody to be detectable. Antibody production is verified using a trial bleed and Indirect Fluorescent Assay.
H. pylori cells from ATCC strain 43504 have been found to be particularly useful in producing the polyclonal antibody. As previously mentioned, substantial strain variation has been observed in H. pylori. Differences in the organism have been observed in different geographic regions as well as dietary groups. However, antibodies obtained through sensitization using cells from strain 43504 have been found to be useful in detecting the organism across geographic regions and dietary groups. If necessary, for example, if it is found that the ELISA is not effective in detecting the organism in certain populations, cells from more than one strain of H. pylori could be used to produce the antibody.
The same labels used in known immunometric assays can be used to label the polyclonal antibody used in the present invention. Among these may be mentioned fluorogenic labels for detection by fluorimetry as described in U.S. Pat. No. 3,940,475, enzymatic markers as described in U.S. Pat. No. 3,654,090, and radioisotopes such as Iodine-125. One of the most common enzymatic markers is horseradish peroxidase (HRP) and alkaline phosphatase enzyme. Example 3 below illustrates labeling polyclonal antibodies with HRP.
The unlabeled polyclonal antibody used in the process of the present invention to extract the antigenic substance from the fecal specimen being tested can be immobilized on any of the supports commonly used in immunonmetric assays. Among these that may be used are filter paper, plastic beads, polyethylene, polystyrene, polypropylene or other suitable test tube. The techniques for bonding antibodies to such materials are well known to those skilled in the art.
To prepare the fecal specimen for use in the assay, the specimen is dispersed in a protein-based sample diluent. The diluent be formulated and buffered to minimize cross-reactivity. As examples of sample diluents, mention can be made of fetal bovine serum, normal goat serum, guinea pig serum, horse serum, casein, albumin, gelatin, and bovine serum albumin (BSA). A dilution of one part fecal specimen and four parts diluent has been found to be useful. In addition to
Kozak Kenneth James
Larka Christopher Vance
Yi Ching Sui Arthur
Frost Brown Todd LLC
Meridian Bioscience, Inc.
Navarro Mark
Portner Ginny Allen
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