Progress towards a vaccine against enterotoxigenic Escherichia coli

A variety of approaches are being investigated in the development of a vaccine against enterotoxigenic Escherichia coli (ETEC). These approaches include purified fimbriae vaccines, toxoid vaccines, live attenuated E. coli vaccine strains and ETEC antigens expressed in carrier organisms. Studies of the pathogenesis and immune response to ETEC indicate that development of a vaccine against human ETEC is a realistic goal but considerable work remains before this goal is realized.     

Status of vaccine research and development for enterotoxigenic Escherichia coli

Enterotoxigenic Escherichia coli (ETEC) is one of the most common bacterial causes of diarrhea-associated morbidity and mortality, particularly among infants and young children in developing countries. Still, the true impact on child and traveler health is likely underestimated. There are currently no licensed vaccines for ETEC, but studies indicate high public health impact, cost-effectiveness, and feasibility of immune protection through vaccination. ETEC vaccine development remains a World Health Organization priority. Traditionally, ETEC vaccine development efforts have focused on inducing antitoxin and anticolonization antigen immunity, as studies indicate that antibodies against both antigen types can contribute to protection and thus have potential for vaccines. Leading cellular vaccine candidates are ETVAX (a mixture of four inactivated strains) and ACE527 (a mixture of three live attenuated strains), both of which have been found to be safe and immunogenic in Phase 1/2 trials. ETVAX is the furthest along in development with descending-age studies already underway in Bangladesh. Other ETEC vaccine candidates based on protein subunits, toxoids (both LT and ST), or novel, more broadly conserved ETEC antigens are also under development. Of these, a protein adhesin-based subunit approach is the most advanced. Impact and economic models suggest favorable vaccine cost-effectiveness, which may help expand market interest in ETEC vaccines. Combination vaccine formulations may help improve the economic case for development and use, and better point-of-care diagnostics will help to raise awareness of the true health burden of ETEC and highlight the potential public health benefit of ETEC vaccine introduction. Better diagnostics and vaccine demand forecasting will also improve vaccine development financing and support accelerated uptake once a licensed vaccine becomes available.     

Immunogenicity and protective efficacy of a single-dose live non-pathogenic Escherichia coli oral vaccine against F4-positive enterotoxigenic Escherichia coli challenge in pigs

Enterotoxigenic Escherichia coli strains expressing F4 (K88) fimbriae (F4-ETEC) are one of the most important causes of post-weaning diarrhea (PWD) in pigs. F4, a major antigen, plays an important role in the early steps of the infection. Herein, the efficacy of a live oral vaccine consisting of a non-pathogenic E. coli strain expressing F4 for protection of pigs against PWD was evaluated. Three blinded, placebo-controlled, block design, parallel-group confirmatory experiments were conducted, using an F4-ETEC PWD challenge model, each with a different vaccination-challenge interval (3, 7, and 21 days). The pigs were vaccinated via the drinking water with a single dose of the Coliprotec® F4 vaccine one day post-weaning. Efficacy was assessed by evaluating diarrhea, clinical observations, intestinal fluid accumulation, weight gain, intestinal colonization and fecal shedding of F4-ETEC. The immune response was evaluated by measuring serum and intestinal F4-specific antibodies. The administration of the vaccine resulted in a significant reduction of the incidence of moderate to severe diarrhea, ileal colonization by F4-ETEC, and fecal shedding of F4-ETEC after the heterologous challenge at 7 and 21 days post-vaccination. The 7-day onset of protection was associated with an increase of serum anti-F4 IgM whereas the 21-day duration of protection was associated with an increase of both serum anti-F4 IgM and IgA. Significant correlations between levels of serum and intestinal secretory anti-F4 antibodies were detected. Maternally derived F4-specific serum antibodies did not interfere with the vaccine efficacy. The evaluation of protection following a challenge three days after vaccination showed a reduction of the severity and the duration of diarrhea and of fecal shedding of F4-ETEC. The 7-day onset and the 21-day duration of protection induced by Coliprotec® F4 vaccine administered once in drinking water to pigs of at least 18 days of age were confirmed by protection against F4-ETEC and induction of F4-specific protective immunity.     

Prime-boost vaccination using cysteine proteinases type I and II of Leishmania infantum confers protective immunity in murine visceral leishmaniasis

Vaccination with a cocktail of DNA encoding cysteine proteinases has been previously shown to confer protection against experimental cutaneous leishmaniasis (CL). In the present study we test the efficacy of immunization against Leishmania infantum in a murine model of infection, using a prime-boost strategy. BALB/c mice were immunized twice, in a 3 weeks interval, with cocktail of plasmids DNA encoding type I (cpb) and II (cpa) cysteine proteinases. DNA immunization was then followed by a boost with rCPA/rCPB in addition to CpG ODN and Montanide720 as adjuvant. Analysis of the immune response showed that vaccination mainly elicited antigen-specific IgG2a antibodies, suggesting the induction of a Th1 immune response. This was further confirmed by the analysis of the splenic cytokine production: at all time points the ratio of IFN-gamma/IL-5 induced upon restimulation with rCPA and rCPB was always significantly higher in vaccinated group compared to both control groups.     

Towards a live oral vaccine against enterotoxigenic Escherichia coli of swine

A live oral vaccine has been developed against scouring induced in piglets by enterotoxigenic Escherichia coli (ETEC). An attenuated strain of Salmonella typhimurium, G30, has been used as a vector for plasmids encoding the production of the fimbrial colonization factors of porcine ETEC. Initial studies with clones expressing K88 or K99 fimbriae have shown them to be well tolerated when administered orally in very high doses. The clones elicited serum, colostral and milk antibodies to the fimbrial antigens, and a challenge trial indicated that such responses were sufficient to ensure the passive transfer of protective immunity to suckling piglets. The possible advantages of this approach are discussed.     

浙江省舟山市269例海岛渔民病毒性肝炎型别分析

为探讨海岛渔民病毒性肝炎的病毒种类及其与临床的关系，对269例海岛渔民肝炎患者的型别进行了分析。研究对象为浙江省舟山市人民医院2001年1月至2004年12月住院的269例渔民病毒性肝炎患者，均为男性，年龄18～65岁，平均32．5岁。诊断标准根据2000年9月中华医学会传染病与寄生虫病学分会、肝病学分会联合修订的病毒性肝炎防治方案。患者人院后常规进行甲、乙、丙、丁、戊、庚型肝炎血清标志物检测，采用酶联免疫吸附法，HCV—RNA，HBV—DNA（采用PCR）。     

肠毒素大肠埃希菌载体活菌疫苗的安全性和免疫性研究

目的 研究肠毒素大肠埃希菌活菌载体疫苗FE3、FE16的安全性和免疫原性。方法 通过肠毒素大肠埃希菌肠毒素毒力试验、新西兰大白兔免疫试验、小鼠口服和鼻饲途径免疫试验，检测载体疫苗的毒性、免疫原性和免疫效果。结果 毒力试验中所有检测均为阴性；免疫4次后大白兔血清对福氏2a型茵的凝集效价均不低于1：640，对肠毒素大肠埃希菌菌毛抗原的凝集效价均不低于1：1280；通过口服和鼻饲方式免疫小鼠后，血清中IgG显著升高，同时能够在粪便中检测到分泌型IgA，而灭活苗免疫未能检测到分泌型IgA。结论 活菌载体疫苗株FE3和FE16具有良好的安全性和免疫原性，同时能够刺激机体产生体液免疫和黏膜免疫反应。     

An assessment of enterotoxigenic Escherichia coli and Shigella vaccine candidates for infants and children

Despite improvements to water quality, sanitation, and the implementation of current prevention and treatment interventions, diarrhea remains a major cause of illness and death, especially among children less than five years of age in the developing world. Rotavirus vaccines have already begun making a real impact on diarrhea, but several more enteric vaccines will be necessary to achieve broader reductions of illness and death. Among the many causes of diarrheal disease, enterotoxigenic Escherichia coli (ETEC) and Shigella are the two most important bacterial pathogens for which there are no currently licensed vaccines. Vaccines against these two pathogens could greatly reduce the impact of disease caused by these infections. This review describes the approaches to ETEC and Shigella vaccines that are currently under development, including a range of both cellular and subunit approaches for each pathogen. In addition, the review discusses strategies for maximizing the potential benefit of these vaccines, which includes the feasibility of co-administration, consolidation, and combination of vaccine candidates, as well as issues related to effective administration of enteric vaccines to infants. Recent impact studies indicate that ETEC and Shigella vaccines could significantly benefit global public health. Either vaccine, particularly if they could be combined together or with another enteric vaccine, would be an extremely valuable tool for saving lives and promoting the health of infants and children in the developing world, as well as potentially providing protection to travelers and military personnel visiting endemic areas.     

Immunogenicity of a prototype enterotoxigenic Escherichia coli adhesin vaccine in mice and nonhuman primates

Enterotoxigenic Escherichia coli (ETEC) are the most common cause of bacterial diarrhea in young children in developing countries and in travelers. Efforts to develop an ETEC vaccine have intensified in the past decade, and intestinal colonization factors (CFs) are somatic components of most investigational vaccines. CFA/I and related Class 5 fimbrial CFs feature a major stalk-forming subunit and a minor, antigenically conserved tip adhesin. We hypothesized that the tip adhesin is critical for stimulating antibodies that specifically inhibit ETEC attachment to the small intestine. To address this, we compared the capacity of donor strand complemented CfaE (dscCfaE), a stabilized form of the CFA/I fimbrial tip adhesin, and CFA/I fimbriae to elicit anti-adhesive antibodies in mice, using hemagglutination inhibition (HAI) as proxy for neutralization of intestinal adhesion. When given with genetically attenuated heat-labile enterotoxin LTR192G as adjuvant by intranasal (IN) or orogastric (OG) vaccination, dscCfaE exceeded CFA/I fimbriae in eliciting serum HAI titers and anti-CfaE antibody titers. Based on these findings, we vaccinated Aotus nancymaae nonhuman primates (NHP) with dscCfaE alone or admixed with one of two adjuvants, LTR192G and cholera toxin B-subunit, by IN and OG administration. Only IN vaccination with dscCfaE with either adjuvant elicited substantial serum HAI titers and IgA and IgG anti-adhesin responses, with the latter detectable a year after vaccination. In conclusion, we have shown that dscCfaE elicits robust HAI and anti-adhesin antibody responses in both mice and NHPs when given with adjuvant by IN vaccination, encouraging further evaluation of an ETEC adhesin-based vaccine approach.     

A highly optimized DNA vaccine confers complete protective immunity against high-dose lethal lymphocytic choriomeningitis virus challenge

Protection against infection is the hallmark of immunity and the basis of effective vaccination. For a variety of reasons there is a great demand to develop new, safer and more effective vaccine platforms. In this regard, while ‘first-generation’ DNA vaccines were poorly immunogenic, new genetic ‘optimization’ strategies and the application of in vivo electroporation (EP) have dramatically boosted their potency. We developed a highly optimized plasmid DNA vaccine that expresses the lymphocytic choriomeningitis virus (LCMV) nucleocapsid protein (NP) and evaluated it using the LCMV challenge model, a gold standard for studying infection and immunity. When administered intramuscularly with EP, robust NP-specific cellular and humoral immune responses were elicited, the magnitudes of which approached those following acute LCMV infection. Furthermore, these responses were capable of providing 100% protection against a high-dose, normally lethal virus challenge. This is the first non-infectious vaccine conferring complete protective immunity up to 8 weeks after vaccination and demonstrates the potential of ‘next-generation’ DNA vaccines.     

Novel vaccine antigen combinations elicit protective immune responses against Escherichia coli sepsis

Systemic infections caused by extraintestinal pathogenic Escherichia coli (ExPEC) have emerged as the most common community-onset bacterial infections and are major causes of nosocomial infections worldwide. The management of ExPEC infections has been complicated by the heterogeneity of ExPEC strains and the emergence of antibiotic resistance, thus their prevention through vaccination would be beneficial. The protective efficacy of four common ExPEC antigen candidates composed of common pilus antigens EcpA and EcpD and iron uptake proteins IutA and IroN, were tested by both active and passive immunization in lethal and non-lethal murine models of sepsis. Additionally, antibody raised to a synthetic form of a conserved surface polysaccharide, β-(1-6)-linked poly-N-acetylglucosamine (dPNAG) containing 9 monomers of (non-acetylated) glucosamine (9GlcNH₂) conjugated to tetanus toxoid TT (9GlcNH₂-TT) was tested in passive immunization protocols. Active immunization of mice with recombinant antigens EcpA, EcpD, IutA, or IroN elicited high levels of total IgG antibody of IgG1/IgG2a isotypes, and were determined to be highly protective against E. coli infection in lethal and non-lethal sepsis challenges. Moreover, passive immunization against these four antigens resulted in significant reductions of bacteria in internal organs and blood of the mice, especially when the challenge strain was grown in iron-restricted media. Inclusion of antibodies to PNAG increased the efficacy of the passive immunization under conditions where the challenge bacteria were grown in LB medium but not in iron-restricted media. The information and data presented are the first step toward the development of a broadly protective vaccine against sepsis-causing E. coli strains.     

A totally synthetic lipopeptide-based self-adjuvanting vaccine induces neutralizing antibodies against heat-stable enterotoxin from enterotoxigenic Escherichia coli

ST-based lipopeptide vaccine candidates were constructed in which ST was chemically synthesized and folded into the correct conformation prior to ligation to a module containing a T-helper cell epitope (T(H)) and the Toll-like receptor 2 (TLR2) agonist, S-[2,3-bis(palmitoyloxy)propyl]cysteine (P2C). Two different chemistries, thioether-based and oxime-based, were then used to ligate ST to the lipidated T(H) epitope. The enterotoxic activity of synthetic ST and the ST-based lipopeptide vaccines was determined in mice followed by an evaluation of immunological efficacy. The importance of the fine detail in chemical composition used in vaccine design was demonstrated by the findings that (i) the oxime-based vaccine exhibited little or no toxicity but the thioether-based vaccine, exhibited residual toxicity in suckling mice, (ii) although each of the synthetic vaccines generated specific anti-ST antibodies, it was the low titer antibodies induced by the oxime-based vaccine that demonstrated better neutralizing activity suggesting that the chemical linkage also affects the specificity of antibodies, (iii) the geometric arrangement of ST within a vaccine can profoundly affect the specificity and biological function of the antibodies that are elicited, and (iv) the lipopeptide-based ST vaccine candidate assembled using oxime chemistry induced a better neutralizing antibody response to ST when administered by the mucosal (intranasal) route.     

Evaluation of a conjugate vaccine platform against enterotoxigenic Escherichia coli (ETEC), Campylobacter jejuni and Shigella

Enterotoxigenic Escherichia coli (ETEC), Campylobacter jejuni (CJ), and Shigella sp. are major causes of bacterial diarrhea worldwide, but there are no licensed vaccines against any of these pathogens. Most current approaches to ETEC vaccines are based on recombinant proteins that are involved in virulence, particularly adhesins. In contrast, approaches to Shigella and CJ vaccines have included conjugate vaccines in which Shigella lipopolysaccharides (LPS) or CJ capsule polysaccharides are chemically conjugated to proteins. We have explored the feasibility of developing a multi-pathogen vaccine by using ETEC proteins as conjugating partners for CJ and Shigella polysaccharides. We synthesized three vaccines in which two CJ polysaccharides were conjugated to two recombinant ETEC adhesins based on CFA/I (CfaEB) and CS6 (CssBA), and LPS from Shigella flexneri was also conjugated to CfaEB. The vaccines were immunogenic in mice as monovalent, bivalent and trivalent formulations. Importantly, functional antibodies capable of inducing hemaglutination inhibition (HAI) of a CFA/I expressing ETEC strain were induced in all vaccines containing CfaEB. These data suggest that conjugate vaccines could be a platform for a multi-pathogen, multi-serotype vaccine against the three major causes of diarrheal disease worldwide.     

Vaccination of attenuated EIS-producing Salmonella induces protective immunity against enterohemorrhagic Escherichia coli in mice

There is an urgent need for vaccine against enterohemorrhagic Escherichia coli (EHEC), which causes a wide range of life-threatening diseases in human and animals. E. coli secreted protein A (EspA), intimin and shiga toxin (Stx) are important pathogenic factors and protective antigens of EHEC. In our previous study, we found that recombinant trivalent protein EIS, which is composed of EspA (E), the 300 amino acids of the carboxyl terminus of intimin (I) and the B subunit of Stx2 (S), was able to efficiently elicit protective immunity against EHEC. The application of live attenuated Salmonella as a carrier for vaccine against mucosal pathogens provided unparalleled merits. Therefore, in this study we constructed live attenuated EIS-producing Salmonella vaccine and tested it as vaccine in mice model. We found that the vaccination of EIS-producing recombinant Salmonella was able to induce significant increases of EspA, intimin and Stx2 specific IgG in serum and secretory IgA in feces. Antigen specific T cell proliferation was also observed in the mice immunized with recombinant EIS-producing Salmonella. In addition, this immunity was able to protect mice from a challenge of a lethal dose of EHEC, even after a period of 70 days. Moreover, the EIS-producing Salmonella induced immunity can be boosted by a single subcutaneous injection of purified EIS protein, even after an interval of 70 days. This EIS-producing Salmonella vaccine provides an alternative approach for the prevention of EHEC infection.     

Demonstration of enterotoxigenic Escherichia coli in diarrheic broiler chicks

An investigation was made to survey the possible presence of enterotoxigenic Escherichia coli (ETEC) in the stools of diarrheal chicks.We analyzed two outbreaks of diarrhea in broiler chicks at two independent farms in the Philippines, from which no pathogens other than Escherichia coli were found. In one outbreak at Farm # 1, all 42 isolates produced heat-labile enterotoxin (LT), with 3 of these isolates also producing heat-stable enterotoxin (ST). The 0 serotypes of 15 strains tested randomly could not be identified as any known serotype (0-antigen; 1–170). In another outbreak at Farm #2, 7 out of 52 isolates produced only LT, their subtypes being identified as O-149 or O-8, common serotypes in pig ETEC. Strains from Farm #1 did not produce any pili usually found in human ETEC. We believe this to be the first isolation of ETEC from diarrheal chicks.Corresponding author.     

Immune responses elicited against multiple enterotoxigenic Escherichia coli fimbriae and mutant LT expressed in attenuated Shigella vaccine strains

Shigella and enterotoxigenic Escherichia coli (ETEC) continue to be important causes of diarrheal disease in infants and young children in developing countries and are major etiologic agents of traveler's diarrhea. Since attenuated strains of Shigella have been developed as live oral vaccines against shigellosis, we have adapted these attenuated Shigella strains to serve as carriers of ETEC antigens, thereby constituting a hybrid vaccine. Since protective immunity against ETEC is largely directed against fimbrial antigens (of which there are multiple antigenic types), we have individually expressed four different ETEC fimbriae, including CFA/I, CS2, CS3, and CS4, using deltaguaBA attenuated Shigella vaccine strain CVD 1204 as a prototype live vector. Following mucosal (intranasal) immunization of guinea pigs, serum IgG and mucosal IgA responses were elicited against each fimbrial type. An additional strain was constructed expressing a detoxified version of the human ETEC variant of heat labile toxin (LThK63). Following mucosal immunization of guinea pigs with a mixed inoculum containing five Shigella strains each expressing a different ETEC antigen, immune responses were observed against each ETEC antigen plus the Shigella vector.     

Induction of long term mucosal immunological memory in humans by an oral inactivated multivalent enterotoxigenic Escherichia coli vaccine

We have evaluated the capacity of an oral multivalent enterotoxigenic Escherichia coli (ETEC) vaccine (MEV) to induce mucosal immunological memory. MEV consists of four inactivated E. coli strains over-expressing the major colonization factors (CFs) CFA/I, CS3, CS5 and CS6 and the LTB-related toxoid LCTBA. Memory responses were analyzed by comparing the magnitudes and kinetics of intestine-derived antibody-secreting cell responses to a single dose of MEV in three groups of adult Swedish volunteers (n = 16–19 subjects per group) in a Phase I trial: non-immunized controls (I) and subjects who in a previous Phase I trial 13–23 months earlier had received two biweekly doses of MEV (II) or MEV + double mutant LT (dmLT) adjuvant (III). Responses against CFs and LTB were analyzed in antibodies in lymphocyte secretions (ALS) of blood mononuclear cells collected before (day 0) and 4/5 and 7 days after immunization. Specific circulating memory B cells present at the time of the single dose vaccination were also studied to determine if such cells may reflect mucosal memory.Considerably higher and significantly more frequent IgA ALS responses against all CFs and LTB were induced by the single vaccine dose in the previously immunized than in non-immunized volunteers. Furthermore, peak IgA ALS responses against all antigens were observed on days 4/5 in most of the previously immunized subjects whereas only a few previously non-vaccinated individuals responded before day 7. Priming with adjuvant did not influence memory responses. Circulating vaccine specific IgA memory B cells were not detected, whereas anti-toxin IgG memory B cells were identified 13–23 months after priming vaccination.We conclude that MEV induces functional mucosal immunological memory which remains at least 1–2 years. Furthermore, our results support that analysis of antibody-secreting cell responses after booster vaccination may be a useful approach to evaluate longstanding mucosal immunological memory in humans.Clinical trials registration: ISRCTN27096290.     

Murine antibody response to intranasally administered enterotoxigenic Escherichia coli colonization factor CS6

Enterotoxigenic Escherichia coli (ETEC) is the most common cause of bacterial diarrhea worldwide and is an important cause of infant morbidity and mortality in developing nations. ETEC colonization factors (CF) are virulence determinants that appear to be protective antigens in humans and are the major target of vaccine efforts. One of the most prevalent CF, CS6, is expressed by about 30% of ETEC worldwide. This study was designed to compare the immunogenicity between encapsulated CS6 (CS6-PLG) and unencapsulated CS6. Recombinant CS6 was purified and encapsulated in biodegradable poly(DL-lactide-co-glycolide) (PLG) microspheres using current Good Manufacturing Practices (cGMP). CS6-PLG and CS6 were administered intranasally (IN) to BALB/c mice in three vaccinations 4 weeks apart. Enzyme linked immunosorbent assay (ELISA) was used to measure the anti-CS6 response in serum and mucosal secretions following each of the three inoculations. Mice vaccinated with two or three doses of CS6-PLG demonstrated a significantly greater rise in serum anti-CS6 IgG and mucosal IgA titer values than those immunized with two or three doses of CS6 alone. Three doses of CS6-PLG led to anti-CS6 serum IgG and mucosal IgA titer values 14-fold and 4.4-fold greater, respectively, than three doses of CS6 (P<0.02). IN administered CS6 to mice is safe and highly immunogenic either alone or when encapsulated in microspheres. PLG microsphere encapsulation of CS6 significantly augments the antibody response to that antigen when administered to a mucosal surface.     

A prime-boost immunization regimen based on a simian adenovirus 36 vectored multi-stage malaria vaccine induces protective immunity in mice

Malaria remains a considerable burden on public health. In 2015, the WHO estimates there were 212 million malaria cases causing nearly 429,000 deaths globally. A highly effective malaria vaccine is needed to reduce the burden of this disease. We have developed an experimental vaccine candidate (PyCMP) based on pre-erythrocytic (CSP) and erythrocytic (MSP1) stage antigens derived from the rodent malaria parasite P. yoelii. Our protein-based vaccine construct induces protective antibodies and CD4⁺ T cell responses. Based on evidence that viral vectors increase CD8⁺ T cell-mediated immunity, we also have tested heterologous prime-boost immunization regimens that included human adenovirus serotype 5 vector (Ad5), obtaining protective CD8⁺ T cell responses. While Ad5 is commonly used for vaccine studies, the high prevalence of pre-existing immunity to Ad5 severely compromises its utility. Here, we report the use of the novel simian adenovirus 36 (SAd36) as a candidate for a vectored malaria vaccine since this virus is not known to infect humans, and it is not neutralized by anti-Ad5 antibodies. Our study shows that the recombinant SAd36PyCMP can enhance specific CD8⁺ T cell response and elicit similar antibody titers when compared to an immunization regimen including the recombinant Ad5PyCMP. The robust immune responses induced by SAd36PyCMP are translated into a lower parasite load following P. yoelii infectious challenge when compared to mice immunized with Ad5PyCMP.     

Heterogeneity among heat-labile enterotoxins produced by porcine enterotoxigenic Escherichia coli

The heat-labile enterotoxins (LT) produced by various porcine strains (LTp) of enterotoxigenic Escherichia coli were purified to homogeneity and their molecular properties were compared with each other. By double gel diffusion and rabbit skin permeability test, LTps from WT-1 (LTp-WT-1) and BO-149 (LTp-BO-149) strains were antigenically and biologically identical. By polyacrylamide gel electrophoresis with sodium dodecyl sulfate (SDS), the mobilities of A and B subunits of LTp (BO-149) were identical to those of LTp (WT-1). However, on polyacrylamide gel electrophoresis without SDS, LTp (BO-149) and LTp (WT-1) differed in mobility, suggesting their molecular differences. Though the pI value of the B subunit of LTp (BO-149) was identical to that of LTp (WT-1), the pI value of the A subunit of LTp (BO-149) was higher than that of LTp (WT-1). These data suggest that there is molecular heterogeneity among LTps produced by the two porcine enterotoxigenic Escherichia coli strains.corresponding author.