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Previous Article | Next Article 
Infect Immun, August 1998, p. 3995-3999, Vol. 66, No. 8
0019-9567/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.
Immune Responses in Ileostomy Fluid and Serum after Oral
Cholera Vaccination of Patients
Colectomized because of Ulcerative Colitis
Jan
Kilhamn,1 2
Hans
Brevinge,3
Ann-Mari
Svennerholm,1 and
Marianne
Jertborn1 2 *
Departments of Medical Microbiology and
Immunology,1
Infectious
Diseases,2 and
Surgery,3 Göteborg University,
Göteborg, Sweden
Received 23 December 1997/Returned for modification 18 February
1998/Accepted 22 May 1998
 |
ABSTRACT |
The capacity of an oral inactivated B-subunit-whole-cell cholera
vaccine to induce immune responses in patients colectomized due to
ulcerative colitis was studied. Two doses of vaccine induced significant mucosal immunoglobulin A (IgA) antibody responses in
ileostomy fluid against cholera toxin in 14 of 15 (93%) patients and
against whole vibrios in 9 of 15 (60%) cases. The serological responses were lower (but not significantly) than those observed in
healthy Swedish volunteers. Increased IgA antitoxin levels were found
in ileostomy fluid as late as 2 years after vaccination.
| |
TEXT |
Ulcerative colitis is a severe
inflammatory bowel disease leading to colectomies in more than 30% of
patients, with approximately 10% of the patients having
colectomies in the year after diagnosis (10). In most
patients, a continent ileostomy ad modum Kock or today a pelvic pouch
with ileoanal anastomosis is constructed after the colectomy (16,
19). Patients with continent ileostomies are likely not to feel
they must restrict their travel, which is of special concern, since
diarrheal diseases pose a risk to them (17). Under normal
conditions, there is an increased loss of sodium and water from the
intestines of colectomized patients that is compensated by an
increased renal reabsorption (5, 6).
Enterotoxin-mediated diarrheal diseases such as cholera and
enterotoxigenic Escherichia coli (ETEC) diarrhea are likely to further increase the intestinal losses, which might lead to severe
dehydration and sodium deficiency.
The aim of the present study was to examine whether a licensed
oral inactivated B-subunit-whole-cell (B-WC) cholera vaccine could
induce intestinal immune responses in patients who had had colectomies
due to ulcerative colitis and to compare the antitoxic and
antibacterial antibody responses in sera from colectomized patients
with those found in a group of healthy volunteers (without any history
of gastrointestinal illness) given the same cholera vaccine. We also
evaluated whether determination of specific immunoglobulin A (IgA)
immune responses in ileostomy fluid could be used to assess the
kinetics of intestinal immune responses after oral immunization.
Study design.
Fifteen adult patients (eight women), aged 30 to
73 years (mean age, 42 years), who had had colectomies due to
ulcerative colitis 3 to 27 years (mean, 14 years) earlier were
recruited from the regular follow-up program for patients with
inflammatory bowel disease at the Department of Surgery, Sahlgrenska
University Hospital in Göteborg, Sweden. Continence surgery had
been performed 3 to 25 years (mean, 11 years) earlier by construction
of either a continent ileostomy ad modum Kock (11 patients) or a pelvic pouch with an ileoanal anastomosis (4 patients). The maximal extent of
the small bowel resection was limited to 10 cm of the distal ileum. All
patients were in general good health and had had no signs of
acute pouchitis for the year preceding the study. Twenty healthy
adult Swedish volunteers (15 women), aged 22 to 48 years (mean age, 31 years), with no history of gastrointestinal illness or inflammatory
bowel disease served as controls. None of the study subjects had been
previously vaccinated against cholera or had travelled to areas where
cholera or ETEC is endemic in the 2 years preceding the study. All
subjects agreed to participate in the study, which was approved by the
Research Ethical Committee at the Medical Faculty, Göteborg
University. Each subject received two oral doses of the B-WC cholera
vaccine with an interval of 2 weeks between the doses. The vaccine,
containing 1.0 mg of recombinantly produced cholera B subunit (CTB) and
1011 heat- and formalin-killed O1 vibrios per dose, was
produced by SBL Vaccin, Stockholm, Sweden, as previously described
(11) and was administered in 150 ml of a 2.8% sodium
bicarbonate buffer solution (Samarin; Cederroths Nordic AB, Upplands
Väsby, Sweden) (13).
From the 15 colectomized patients, ileostomy fluid and blood
specimens were collected immediately before the first
immunization (day 0) and then 9 days after the second dose. From 9 of these patients, additional specimens were also obtained after
5 and 21 days (only fluid) and 4, 8, 12, and 24 months. From the 20 healthy volunteers, serum samples were collected before the first immunization (day 0) and 9 days after the second vaccine dose.
Ileostomy fluids were collected within 3 h after the last
emptying of the reservoir. A 50-ml portion of fluid was immediately chilled on ice and then centrifuged at 20,000 × g for
30 min. Twenty milliliters of the supernatant was saved and treated
with enzyme inhibitors essentially by the method of Gaspari et al. (9). Soybean trypsin inhibitor (STI; Sigma Chemical Co., St. Louis, Mo.) was added to a final concentration of 100 µg
ml
1 followed by addition of EDTA (pH 7.2 to 7.4; Merck,
Darmstadt, Germany) to a final concentration of 0.05 M. Then 100 mM
phenylmethylsulfonyl fluoride (Sigma Chemical Co.) diluted in 99%
methanol was added to the STI-EDTA-treated ileostomy fluid to a final
concentration of 2% (vol/vol) and kept at room temperature for 15 min.
Finally, bovine serum albumin (Sigma Chemical Co.) and NaN3
were added to final concentrations of 1 mg ml1 and 0.02%
(vol/vol), respectively. The ileostomy fluid was divided into two
portions; one aliquot was frozen at 
70°C, and the other portion was lyophilized and stored at 4°C until used. Serum specimens were obtained by venous puncture and stored in aliquots at 20°C.
Antibody and immunoglobulin determinations.
Levels of
total IgA in ileostomy fluid were determined by a modified microplate
enzyme-linked immunosorbent assay (ELISA) (4, 24). IgA
antibody responses to cholera toxin in ileostomy fluid were studied by
the GM1 ELISA (23) and antibacterial antibodies by an ELISA
in which the WC component of the B-WC vaccine or Vibrio cholerae O1 lipopolysaccharide (LPS) was used as a solid-phase antigen (14, 15). Threefold (antitoxin) or twofold
(antibacterial) serial dilutions of pre- and postvaccination specimens
were tested side by side in duplicate. The specific antitoxic and
antibacterial activities of IgA in ileostomy fluid were determined by
dividing the IgA ELISA antibody titers by the total IgA concentration
(in micrograms per milliliter) of the sample. Based on previous
calculations, a greater than twofold increase in the mean IgA
antibody titer/total IgA concentration between pre- and
postimmunization specimens was chosen to signify seroconversion
(1, 14). Serum antitoxic responses of IgA and IgG classes
were determined by the GM1 ELISA mentioned above (23).
Antibacterial antibodies in serum were determined by a microtiter
vibriocidal assay (18). Threefold (GM1 ELISA) or twofold
(vibriocidal test) serial dilutions of pre- and postvaccination
specimens were tested in duplicate. The antibody titer ascribed to each
sample was the mean of the duplicate determinations. An increase of
twofold (antitoxin) or fourfold (vibriocidal), or more, in the endpoint
titer between pre- and postvaccination specimens was used to signify
seroconversion at a P value of <0.05 (12, 13).
Confidence intervals (CI) were calculated by using the t
distribution in a two-tailed fashion.
Adverse reactions.
Surveillance for possible side
effects to the B-WC cholera vaccine in colectomized patients was
performed during 5 consecutive days after each immunization.
Gastrointestinal symptoms, i.e., abdominal discomfort, abdominal
cramps, and/or an increase in the reservoir-emptying frequency up
to twice the normal rate were reported by three (20%) of the patients
after the first immunization and by two (14%) of them after the second
dose. The symptoms did not affect the patients' daily activities. The
frequency and severity of symptoms were consistent with previous
findings in healthy individuals who had been immunized with the same
cholera vaccine and were probably due to the intake of bicarbonate
buffer (13, 14).
Antibody responses in ileostomy fluid.
To date, the most
reliable approach to assess gut mucosal immune responses is to
determine specific IgA antibodies in intestinal secretions (2, 12,
24). The lavage procedure has been used extensively in our
laboratory for evaluations of intestinal immune responses in humans
after oral immunization with cholera as well as inactivated ETEC
vaccines (1, 14, 24). However, since the method is laborious
and repeated intestinal lavages are difficult to perform, it
is not suitable for studies of the kinetics of gut mucosal immune
responses after vaccination. More recently, it has been described that
IgA antibody responses in feces may reflect intestinal immune responses
in volunteers receiving an oral ETEC vaccine, although the sensitivity
of such determinations has been lower than that of lavage analyses
(3, 25). In an attempt to identify an easily accessible
specimen that allows collection on multiple occasions and possibly has
a high sensitivity in reflecting intestinal immune responses, we
evaluated whether ileostomy fluid could be used to study locally
produced secretory IgA antibodies in the intestine. Ileostomy fluid
specimens collected from 15 colectomized patients given B-WC vaccine
were found to contain a mean of 97% water, with negligible variations
in water content between samples collected from different patients and on various days. The geometric mean total IgA concentrations were similar in fluids collected before and after immunization, being 2,630 and 2,512 µg ml1, respectively. The concentration of
total IgA was approximately 20 times higher in ileostomy fluids than in
intestinal lavages or fecal extracts (2, 3, 9). At least
part of this difference might be explained by the dilution effect
obtained by the lavage fluid treatment or fecal extraction procedure.
In agreement with findings in earlier vaccine trials using lavage fluid
for assessment of intestinal immunity (2, 3), the total IgA
content in consecutive ileostomy fluid specimens from one subject was
very consistent. The interindividual variation in total IgA
concentrations in ileostomy fluids was comparable to that in lavage
specimens (approximately 7-fold) but lower than in fecal extracts
(approximately 23-fold) (2, 3). The small variations in
total IgA concentration found might be due to the standardized
conditions under which the specimens were collected. Thus, all
ileostomy fluids were obtained within 3 h after the last emptying
of the reservoirs and immediately chilled on ice in order to minimize
the time for degradation of immunoglobulins by proteolytic enzymes. In
comparison with determination of specific IgA antibodies in intestinal
lavages, analyses of ileostomy fluids seem to have some advantages,
such as the ease of obtaining specimens and the possibility of being able to monitor the kinetics of the gut immune responses after immunization. However, the number of colectomized patients available for such studies is limited.
It has been suggested that patients with ulcerative colitis might have
defective immunoregulation. In active ulcerative colitis, an
upregulation of peripheral blood mononuclear cells as well as mucosal
lymphocytes with regard to surface activation markers has been noted
(22). In the present study, two doses of B-WC vaccine
induced significant increases in CTB-specific IgA antibody titers/total
IgA concentrations in ileostomy fluid in 14 of the 15 (93%)
colectomized patients, and the geometric mean fold increase for
responders was 51-fold (95% CI, 15- to 178-fold) (Table
1). The frequency of CTB-specific IgA
antibody responses in ileostomy fluid samples from the patients was
comparable to that previously observed in lavage fluid and stool
specimens of healthy Swedish volunteers given CTB orally together with
either killed V. cholerae (14) or killed ETEC
bacteria (1, 3). The magnitude of the gut mucosal IgA
antitoxin response was at least as high in the colectomized patients as
in healthy volunteers (1, 14). Although there was a tendency
towards a less frequent antibacterial immune response in colectomized
patients than in lavage fluid samples from healthy volunteers after
cholera vaccination (14), antibacterial IgA antibody
responses were still found in ileostomy fluid in 9 of 15 (60%) of the
patients; of these patients, 6 responded to LPS and 7 responded to the
WC component of the vaccine. The magnitudes of the increases in
antibacterial titers against the two different types of antigens were
also very similar (Table 1).
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TABLE 1.
Antitoxin and antibacterial IgA antibody responses in
ileostomy fluid samples from colectomized patients 9 days after the
second oral immunization with B-WC cholera vaccine
|
|
Antibody responses in serum.
In contrast to the strong immune
response seen in the intestine after immunization, the B-WC cholera
vaccine did not seem to be as efficient in inducing serum antibody
responses in colectomized patients as in healthy volunteers. Thus, two
doses of B-WC vaccine induced significant increases in IgA antitoxin
titer in serum in 10 of 15 (67%) of the patients, and 7 patients
(47%) developed IgG antitoxin responses (Table
2). The magnitude of the increases in
antitoxin titer among responders was approximately 7.5-fold. Vibriocidal antibody responses in serum were found in 4 of 15 (27%) of
the patients, and the magnitude of the titer increases for these
responders was 10-fold (Table 2). The serological responses were lower
than those observed in the group of healthy volunteers given the same
vaccination (Table 2). Thus, both the frequencies and magnitudes of IgA
and IgG antitoxin responses as well as vibriocidal antibody responses
were higher in the healthy volunteers than in the colectomized
patients, although the differences were not statistically significant
(Student's t test and Fisher's exact test, unpaired,
two-tailed). The antibody responses in the control group were
comparable to those observed in several previous trials of healthy
Swedish volunteers receiving B-WC cholera vaccine (13, 14).
A possible explanation for the weaker serum responses found in the
colectomized patients is that the uptake of the vaccine components by
cells presenting them to the systemic immune system is depressed
compared to that of healthy controls.
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TABLE 2.
Serum antibody responses in colectomized patients and
age-matched healthy volunteers given two oral doses of B-WC
cholera vaccine
|
|
The relation between the immune responses in ileostomy fluid and serum
samples from the colectomized patients was also studied. Of the 14 patients responding with IgA antitoxin titer rises in ileostomy fluid,
10 developed significant IgA antitoxin responses and 7 responded with
IgG antitoxin in serum. Only one of nine patients with increases in
antibacterial IgA antibody titers in ileostomy fluid responded with a
significant vibriocidal antibody titer increase in serum.
Kinetics of immune responses.
The ease in obtaining additional
specimens of ileostomy fluid made it possible to study the kinetics of
the gut mucosal immune responses in colectomized patients up to 24 months after oral immunization with B-WC cholera vaccine. In earlier
studies in Bangladesh, IgA antibody responses in lavage fluid have been
monitored for up to 28 days after two doses of cholera vaccine, and by
that time, significant antitoxic and antibacterial IgA immune responses were found in approximately two-thirds of the volunteers who had initially responded to the vaccine (12, 24). More recently, analyses of fecal IgA antibodies in healthy Swedish volunteers have
shown that increases in vaccine-specific gut mucosal IgA antibody
titers can be demonstrated in 40 to 50% of initially responding
vaccinees 6 months after cholera vaccination (15). In the
present study, we could show that eight of nine (89%) initially responding colectomized patients still had significantly elevated IgA
antitoxin levels in ileostomy fluid 8 months after vaccination and in
six of these patients (67%), antitoxin levels remained elevated after
24 months (Fig. 1). Peak intestinal IgA
antitoxin responses were found in fluids collected 9 days after
vaccination; the geometric mean level being 51-fold higher than that
before vaccination. Thereafter, the IgA antitoxin levels
decreased but still showed a mean increase of 6.2-fold after 24 months
compared to that before vaccination (Fig. 1). Intestinal antibacterial IgA antibody responses were found in three of six initially responding patients 4 months after immunization, and only one patient had a
demonstrable intestinal antibacterial IgA antibody response after 12 months. The antibacterial IgA responses peaked in fluids collected
either 9 or 21 days after vaccination. In contrast to the long-lasting
antitoxin response seen in the intestine, only 33% of the patients had
elevated IgA and IgG antitoxin levels in serum after 2 years. The
kinetics of the vibriocidal antibody response in serum could not
be studied, since only one patient responded to the vaccine.
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FIG. 1.
Kinetics of the geometric mean IgA antitoxin titer/total
IgA concentration in ileostomy fluid samples from nine colectomized
patients after immunization with two oral doses of B-WC cholera
vaccine. Frequencies of responders are indicated above the bars. The
error bars show the standard errors of the means.
|
|
In conclusion, the present study shows that an oral inactivated B-WC
cholera vaccine was safe and gave rise to significant mucosal IgA
antibody responses in ileostomy fluid when given to adult patients who
had had colectomies due to ulcerative colitis. Large field trials have
shown that the B-WC cholera vaccine confers protection against cholera
(8, 21) and that through its B-subunit component (which
cross-reacts immunologically with B subunits of the heat-labile
toxin [LT] of ETEC), the vaccine is also capable of inducing
substantial (ca. 70%) short-term protection against LT-producing
E. coli diarrhea in adult travellers and children in areas
where LT-producing E. coli is endemic (7, 20).
The results of the present study suggest that the B-WC cholera
vaccine may also be used for immunoprophylaxis against cholera and
LT-producing ETEC in patients with ileostomies who intend to
travel to areas in Africa, Asia, and Latin America where cholera and
ETEC are endemic.
| |
ACKNOWLEDGMENTS |
This work was supported in part by a grant from the Swedish Medical
Research Council (16X-09089).
We are grateful to Camilla Johansson and Marie Bengtsson for skillful
technical assistance and to Elisabet Lindholm and Harriet Törnqvist for collecting the specimens.
| |
FOOTNOTES |
*
Corresponding author. Mailing address: Department of
Medical Microbiology and Immunology, Göteborg University,
Guldhedsgatan 10, S-413 46 Göteborg, Sweden. Phone: 46-31-60 46 81. Fax: 46-31-82 69 76. E-mail: marianne.jertborn{at}microbio.gu.se.
Editor: R. N. Moore
| |
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Infect Immun, August 1998, p. 3995-3999, Vol. 66, No. 8
0019-9567/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.
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