Safety and immunogenicity of two formulations of rotavirus vaccine in Vietnamese infants.

BACKGROUND AND AIMS: ROTAVIN-M1® (licensed, frozen vaccine) and ROTAVIN (second-generation, liquid candidate vaccine) are two rotavirus vaccine formulations developed from a live attenuated G1P8 (KH0118) strain by Center for Research and Production of Vaccines and Biologicals (POLYVAC), Vietnam. This study compared the safety and immunogenicity of these two formulations. METHODS: A Phase 3, randomized, partially double-blinded, active-controlled study was conducted in healthy infants aged 60-91 days in Vietnam. Infants received two doses of ROTAVIN or ROTAVIN-M1 in a ratio of 2:1 with an interval of 8 weeks. Solicited reactions were collected for 7 days after each vaccination. Blood samples were collected pre-vaccination and 4 weeks after the second vaccination in a subset of infants. Non-inferiority criteria required that the lower bound of 95% confidence intervals (CIs) of the post-vaccination anti-rotavirus IgA GMC (Geometric Mean Concentration) ratio of ROTAVIN/ROTAVIN-M1 should be >0.5. A co-primary objective was to compare the safety of the two vaccines in terms of solicited reactions. RESULTS: A total of 825 infants were enrolled. The post-vaccination GMC was 48.25 (95% CI: 40.59, 57.37) in the ROTAVIN group and 35.04 (95% CI: 27.34, 44.91) in the ROTAVIN-M1 group with an IgA GMC ratio of 1.38 (95% CI: 1.02, 1.86) thus meeting the pre-set criteria for non-inferiority. A total of 605 solicited reactions were reported in 297 (36.0%) participants with 35.4% in the ROTAVIN group and 37.2% in the ROTAVIN-M1 group. There were no cases of intussusception or death reported in the study. CONCLUSIONS: Based on the data generated, it can be concluded that ROTAVIN is immunologically non-inferior and has similar safety profile to ROTAVIN-M1 when administered to infants in a two-dose schedule. Therefore, it can be considered as a more suitable option for programmatic use to prevent rotavirus diarrhoea in Vietnam and the Mekong region. TRIAL REGISTRATION NUMBER: ClinicalTrials.gov identifier: NCT03703336, October 11, 2018.

Immunogenicity and safety of two monovalent rotavirus vaccines, ROTAVAC® and ROTAVAC 5D® in Zambian infants.

BACKGROUND AND AIMS: ROTAVAC® (frozen formulation stored at -20 °C) and ROTAVAC 5D® (liquid formulation stable at 2-8 °C) are rotavirus vaccines derived from the 116E human neonatal rotavirus strain, developed and licensed in India. This study evaluated and compared the safety and immunogenicity of these vaccines in an infant population in Zambia. METHODS: We conducted a phase 2b, open-label, randomized, controlled trial wherein 450 infants 6 to 8 weeks of age were randomized equally to receive three doses of ROTAVAC or ROTAVAC 5D, or two doses of ROTARIX®. Study vaccines were administered concomitantly with routine immunizations. Blood samples were collected pre-vaccination and 28 days after the last dose. Serum anti-rotavirus IgA antibodies were measured by ELISA, with WC3 and 89-12 rotavirus strains as viral lysates in the assays. The primary analysis was to assess non-inferiority of ROTAVAC 5D to ROTAVAC in terms of the geometric mean concentration (GMC) of serum IgA (WC3) antibodies. Seroresponse and seropositivity were also determined. Safety was evaluated as occurrence of immediate, solicited, unsolicited, and serious adverse events after each dose. RESULTS: The study evaluated 388 infants in the per-protocol population. All three vaccines were well tolerated and immunogenic. The post-vaccination GMCs were 14.0 U/mL (95% CI: 10.4, 18.8) and 18.1 U/mL (95% CI: 13.7, 24.0) for the ROTAVAC and ROTAVAC 5D groups, respectively, yielding a ratio of 1.3 (95% CI: 0.9, 1.9), thus meeting the pre-set non-inferiority criteria. Solicited and unsolicited adverse events were similar across all study arms. No death or intussusception case was reported during study period. CONCLUSIONS: Among Zambian infants, both ROTAVAC and ROTAVAC 5D were well tolerated and the immunogenicity of ROTAVAC 5D was non-inferior to that of ROTAVAC. These results are consistent with those observed in licensure trials in India and support use of these vaccines across wider geographical areas.

Accuracy of methods for reporting inorganic element concentrations and radioactivity in oil and gas wastewaters from the Appalachian Basin, U.S. based on an inter-laboratory comparison.

Accurate and precise analyses of oil and gas (O&G) wastewaters and solids (e.g., sediments and sludge) are important for the regulatory monitoring of O&G development and tracing potential O&G contamination in the environment. In this study, 15 laboratories participated in an inter-laboratory comparison on the chemical characterization of three O&G wastewaters from the Appalachian Basin and four solids impacted by O&G development, with the goal of evaluating the quality of data and the accuracy of measurements for various analytes of concern. Using a variety of different methods, analytes in the wastewaters with high concentrations (i.e., >5 mg L-1) were easily detectable with relatively high accuracy, often within ±10% of the most probable value (MPV). In contrast, often less than 7 of the 15 labs were able to report detectable trace metal(loid) concentrations (i.e., Cr, Ni, Cu, Zn, As, and Pb) with accuracies of approximately ±40%. Despite most labs using inductively coupled plasma mass spectrometry (ICP-MS) with low instrument detection capabilities for trace metal analyses, large dilution factors during sample preparation and low trace metal concentrations in the wastewaters limited the number of quantifiable determinations and likely influenced analytical accuracy. In contrast, all the labs measuring Ra in the wastewaters were able to report detectable concentrations using a variety of methods including gamma spectroscopy and wet chemical approaches following Environmental Protection Agency (EPA) standard methods. However, the reported radium activities were often greater than ±30% different to the MPV possibly due to calibration inconsistencies among labs, radon leakage, or failing to correct for self-attenuation. Reported radium activities in solid materials had less variability (±20% from MPV) but accuracy could likely be improved by using certified radium standards and accounting for self-attenuation that results from matrix interferences or a density difference between the calibration standard and the unknown sample. This inter-laboratory comparison illustrates that numerous methods can be used to measure major cation, minor cation, and anion concentrations in O&G wastewaters with relatively high accuracy while trace metal(loid) and radioactivity analyses in liquids may often be over ±20% different from the MPV.

Defining T-cell-mediated immune responses in rotavirus-infected juvenile rhesus macaques.

The appearance of virus-specific CD4(+) and/or CD8(+) T lymphocytes in peripheral blood of captive juvenile rhesus macaques (Macaca mulatta) was observed following rotavirus infection. These cell-mediated immune responses were measured following experimental or natural infection after rotavirus was isolated from stool specimens of asymptomatic animals. The virus isolated was a new strain of simian rotavirus that we named TUCH (for Tulane University and Cincinnati Children's Hospital). Restimulation of peripheral T lymphocytes by inactivated double- or triple-layered TUCH rotavirus particles containing either VP6 or VP4 and VP7 on their respective surfaces resulted in increased quantities of interleukin-6 (IL-6) and IL-12 in cell culture supernatants. Recall responses to rotavirus by CD4(+) and CD8(+) T lymphocytes were associated with accumulation of intracellular IL-6 and gamma interferon. Antigen presentation of TUCH rotavirus to lymphocytes was mediated via differentiated cultures of monocyte-derived dendritic (HLA-DR(+)) cells. This is the first report demonstrating cell-mediated immune responses to rotavirus in nonhuman primates. Further exploration of rhesus macaques in vaccine trials with human rotavirus vaccine candidates is the major objective of future studies.

Role for T cell-independent B cell activity in the resolution of primary rotavirus infection in mice.

We examined the importance of T cell-independent B cell activity in the resolution of primary murine (EDIM) rotavirus infection in adult mice. We showed that Rag 1 (C57BL / 6 background) and Rag 2 (BALB / c background) knockout mice, which lack both T and B cells, chronically shed high levels of rotavirus Ag in stool samples following oral inoculation. However, nude mice (BALB / c and C57BL / 6 backgrounds) and alpha beta TCR knockout mice (C57BL / 6 background) chronically shed 100-fold lower levels of virus in stool samples. Thus, B cells appeared to sharply reduce the level of chronic rotavirus shedding by a T cell-independent mechanism. C57BL / 6 mice depleted of CD4(+) cells or both CD4(+) and CD8(+) cells were also unable to resolve primary rotavirus infection but chronically shed equally low levels of rotavirus Ag in stool samples, whereas mice depleted of only CD8(+) cells resolved infection. Similar results were obtained with a second rotavirus strain (EC(w)) in which virus was shed chronically in stool samples at low levels in alpha beta TCR knockout mice and at high levels in Rag 1 knockout mice. Virus-specific intestinal IgA was readily detected in mice lacking thymic T cells and alpha beta T cells and in mice depleted of CD4(+) cells but levels were 95 % reduced in comparison to immunocompetent control mice. Together, these results show that B cells lacking CD4(+) T cell help have the capacity to substantially reduce rotavirus shedding, possibly through the production of T cell-independent IgA to rotavirus, but full resolution requires alpha beta T cells.

Parkinson's disease, CYP2D6 polymorphism, and age.

OBJECTIVE: PD may be caused by genetic susceptibility to neurotoxins. CYP2D6 is a candidate gene for PD because it regulates drug and toxin metabolism, but association studies have been inconsistent. The aim of this study was to test if the CYP2D6*4 allele (poor metabolizer phenotype) is associated with earlier age at onset. METHODS: Five hundred seventy-six patients with PD and 247 subjects without PD were studied using standard diagnostic, genotyping, and statistical techniques. RESULTS: Surprisingly, mean onset age was significantly later in *4-positive patients. Frequency of *4 was significantly higher in late-onset PD than early-onset PD. When early- and late-onset PD were analyzed separately, *4 had no effect on onset age; hence, the association with delayed onset was likely an artifact of an elevated *4 frequency in late-onset PD. Contrary to a common assumption that CYP2D6 frequencies do not change with age, *4 frequency rose significantly with advancing age, both in patients with PD (from 0.16 at mean age of 56.5 years to 0.21 at mean age of 72) and subjects without PD (from 0.09 at mean age of 45.5 years to 0.21 at mean age of 72). *4 Frequencies in patients with early- and late-onset PD, although different from each other, were in agreement with similarly aged subjects without PD, suggesting the elevated *4 frequency in late-onset PD was likely an age effect, unrelated to PD. CONCLUSION: The CYP2D6*4 allele is not associated with earlier PD onset. *4 May be associated with survival. Inconsistent results from allelic association studies may have been due to an unrecognized age effect.

Evaluating a community-based multiprofessional course in community health.

PURPOSE: To evaluate student response to a community health course taught using a small-group, interdisciplinary, service-learning approach. METHOD: Student evaluations for the course were reviewed for a 3-year period (1994 1997). RESULTS: Student evaluations of the course improved over the 3-year period. A total of 60-76% of the students indicated that they preferred the small-group experiential approach to lectures. Examination of evaluation scores for individual small groups showed that some small groups gave the course very high ratings, while others found the experience inadequate. CONCLUSION: A course in community health is best taught in the community rather than the classroom. A small-group approach may result in a course with considerable variation among groups as a result of variations in community receptivity, faculty skills, and perhaps other factors.

Functional mapping of protective domains and epitopes in the rotavirus VP6 protein.

The purpose of this study was to determine which regions of the VP6 protein of the murine rotavirus strain EDIM are able to elicit protection against rotavirus shedding in the adult mouse model following intranasal (i.n.) immunization with fragments of VP6 and a subsequent oral EDIM challenge. In the initial experiment, the first (fragment AB), middle (BC), or last (CD) part of VP6 that was genetically fused to maltose-binding protein (MBP) and expressed in Escherichia coli was examined. Mice (BALB/c) immunized with two 9-microg doses of each of the chimeras and 10 microg of the mucosal adjuvant LT(R192G) were found to be protected against EDIM shedding (80, 92, and nearly 100% reduction, respectively; P

Echocardiographic Doppler evaluation of left ventricular diastolic filling in older, highly trained male endurance athletes.

Previously published data have suggested that endurance training does not retard the normative aging impairment of early left ventricular diastolic filling (LVDF). Those studies, suggesting no effect of exercise training, have not examined highly trained endurance athletes or their LVDF responses after exercise. We therefore compared LVDF characteristics in a group of older highly trained endurance athletes (n = 12, mean age 69 years, range 65-75) and a group of sedentary control subjects (n = 12, mean age 69 years, range 65-73) with no cardiovascular disease. For all subjects, M-mode and Doppler echocardiographic data were obtained at rest. After baseline studies, subjects underwent graded, maximal cardiopulmonary treadmill exercise testing using a modified Balke protocol. Breath-by-breath respiratory gas analysis and peak exercise oxygen consumption (VO(2)max) measurements were obtained. Immediately after exercise and at 3-6 minutes into recovery, repeat Doppler echocardiographic data were obtained for determination of LVDF parameters. VO(2)max (44 +/-6.3 vs 27+/-4.2 ml/kg/min, P<0.001), oxygen consumption at anaerobic threshold (35+/-5.4 vs 24+/-3.8 ml/kg/min, P<0.001), exercise duration (24+/-3 vs 12+/-6 minutes, P<0.001), and left ventricular mass index (61+/-13 vs 51+/-7.8 kg/m(2), P<0.05) were greater in endurance athletes than in sedentary control subjects, whereas body mass index was lower (22+/-1.7 vs 26+/-3.4 kg/m(2), P<0.001). No differences in any of the LVDF characteristics were observed between the groups with the exception of a trend toward a lower atrial filling fraction at rest in the endurance athlete group versus the control subjects (P = 0.07). High-intensity endurance exercise training promotes exceptional peak exercise oxygen consumption and cardiovascular stamina but does not appear to alter normative aging effects on left ventricular diastolic function.

Antibody-dependent and -independent protection following intranasal immunization of mice with rotavirus particles.

The ability to elicit protective immune responses after intranasal immunization with rotavirus particles, either with or without the attenuated Escherichia coli heat-labile enterotoxin LT(R192G) as an adjuvant, was examined in the adult mouse model. BALB/c mice were administered one or two inoculations of psoralen/UV-inactivated, triple-layered (tl) or double-layered (dl) purified rotavirus particles. Four weeks after immunization, mice were challenged with the murine rotavirus strain EDIM, and the shedding of rotavirus antigen was quantified. Rotaviruses used for immunization included EDIM and heterotypic simian (RRV), bovine (WC3), and human (89-12) strains. tl EDIM stimulated both systemic and intestinal rotavirus antibody responses and complete protection with as little as one 1-microgram dose. Inclusion of LT(R192G) (10 micrograms) significantly increased rotavirus antibody responses and reduced antigen concentrations needed for full protection. Both dl EDIM and heterotypic dl and tl particles stimulated protection, but they did so less than tl EDIM at comparable concentrations, either with or without LT(R192G). When B-cell-deficient microMt mice were immunized with tl EDIM particles, protection was reduced to levels similar to those induced with dl EDIM and heterotypic particles in BALB/c mice. However, dl EDIM particles induced similar levels of protection in both mouse strains. The protection stimulated by tl or dl EDIM particles was not diminished by CD8 cell depletion prior to immunization in either strain of mice. These results indicate that tl EDIM induced immunity at least partially through responses to its outer capsid proteins, presumably by stimulation of serotype-specific neutralizing antibody. In contrast, the other particles stimulated protection primarily by an antibody-independent mechanism. Finally, depletion of CD8 cells had no effect on protection by either mechanism.

Antibody-independent protection against rotavirus infection of mice stimulated by intranasal immunization with chimeric VP4 or VP6 protein.

This study was to determine whether individual rotavirus capsid proteins could stimulate protection against rotavirus shedding in an adult mouse model. BALB/c mice were intranasally or intramuscularly administered purified Escherichia coli-expressed murine rotavirus strain EDIM VP4, VP6, or truncated VP7 (TrVP7) protein fused to the 42.7-kDa maltose-binding protein (MBP). One month after the last immunization, mice were challenged with EDIM and shedding of rotavirus antigen was measured. When three 9-microg doses of one of the three rotavirus proteins fused to MBP were administered intramuscularly with the saponin adjuvant QS-21, serum rotavirus immunoglobulin G (IgG) was induced by each protein. Following EDIM challenge, shedding was significantly (P = 0.02) reduced (i.e., 38%) in MBP::VP6-immunized mice only. Three 9-micrograms doses of chimeric MBP::VP6 or MBP::TrVP7 administered intranasally with attenuated E. coli heat-labile toxin LT(R192G) also induced serum rotavirus IgG, but MBP::VP4 immunization stimulated no detectable rotavirus antibody. No protection against EDIM shedding was observed in the MBP::TrVP7-immunized mice. However, shedding was reduced 93 to 100% following MBP::VP6 inoculation and 56% following MBP::VP4 immunization relative to that of controls (P = <0.001). Substitution of cholera toxin for LT(R192G) as the adjuvant, reduction of the number of doses to 1, and challenge of the mice 3 months after the last immunization did not reduce the level of protection stimulated by intranasal administration of MBP::VP6. When MBP::VP6 was administered intranasally to B-cell-deficient microMt mice that made no rotavirus antibody, shedding was still reduced to <1% of that of controls. These results show that mice can be protected against rotavirus shedding by intranasal administration of individual rotavirus proteins and that this protection can occur independently of rotavirus antibody.

Effects of different adjuvants on rotavirus antibody responses and protection in mice following intramuscular immunization with inactivated rotavirus.

I.m. immunization of mice with inactivated rotavirus particles protects against subsequent infection. To optimize protection, the effects of different adjuvants (QS-21, QS-7, QUIL A, PCPP and RAS) with potential for human use were compared. Twenty-eight days after i.m. immunization with 20 microg of purified, UV/psoralen-inactivated murine rotavirus (EDIM), either with or without adjuvant, BALB/c mice were orally challenged with live EDIM and virus shedding was measured. All five adjuvants stimulated large (P < 0.001) increases in rotavirus antibody, but significant differences were found between adjuvants. The order of rotavirus IgG responses, i.e. no adjuvant < RAS < QS-7 < Quil A < QS-21 < PCPP, was the same as the order of protection except that QS-21 and PCPP were reversed. These results establish the importance of adjuvants during i.m. immunization with rotavirus and identify those with the greatest potential.

Antibody responses and protection stimulated by sequential oral-parenteral immunization of mice with rotavirus.

Antibody responses and protection against shedding following oral challenge with murine rotavirus (EDIM) were determined in mice after sequential oral parenteral immunization. Oral immunization of 4-day-old BALB/c mice with live, heterologous rotavirus (RRV) stimulated serum rotavirus IgG but little serum or intestinal rotavirus IgA and small but significant (P < 0.001) reductions in EDIM shedding. Intraperitoneal immunization with inactivated EDIM at 29 days of age had similar effects. Sequential oral-parenteral immunization under these conditions stimulated small but significant (P < 0.001) increases in both rotavirus IgG and IgA titers and reduced shedding (P < 0.001) compared to individual immunizations. However, these responses were essentially additive, indicative of separate inductive/effector sites for mucosal and systemic immunity.

Particle-bombardment-mediated DNA vaccination with rotavirus VP4 or VP7 induces high levels of serum rotavirus IgG but fails to protect mice against challenge.

We recently reported that epidermal immunization using the PowderJet particle delivery device with plasmid vector pcDNA1/EDIM6 encoding rotavirus VP6 of murine strain EDIM induced high levels of serum rotavirus IgG but failed to protect mice against EDIM infection (Choi, A. H., Knowlton, D. R., McNeal, M. M., and Ward, R. L. (1997) Virology 232, 129-138.). This was extended to determine whether pcDNA1/EDIM4 or pcDNA1/EDIM7, which encode either rotavirus VP4 or VP7, the rotavirus neutralization proteins, could also induce rotavirus-specific antibody responses and if these responses resulted in protection. Titers of rotavirus serum IgG increased with the first dose in mice immunized with pcDNA1/EDIM7, but little or no serum rotavirus IgG was detected in mice immunized with pcDNA1/EDIM4. In vitro assays with these plasmids in rabbit reticulocyte lysates showed that VP4 was expressed but the amount was considerably lower than VP6 or VP7. To improve expression of VP4 and induction of rotavirus-specific humoral responses, the coding region of VP4 was cloned into the high-expression plasmid WRG7054 as a fusion protein containing the 22-amino-acid secretory signal peptide of tissue plasminogen activator (tPA) at its N terminus. In vitro expression of tPA::VP4 was significantly higher than unmodified VP4, and mice inoculated with WRG7054/EDIM4 generated high titers of rotavirus IgG. The coding sequence of VP7 without the first 162 nucleotides was also cloned into WRG7054, but no difference was observed between titers of serum rotavirus IgG in mice immunized with this plasmid (WRG7054/EDIM7Delta1-162) and pcDNA1/EDIM7. The rotavirus-specific IgG titers in all immune sera were predominantly IgG1 indicating induction of Th 2-type responses. None of the mice immunized with any of the VP4 or VP7 plasmids developed serum or fecal rotavirus IgA or neutralizing antibody to EDIM. When immunized mice were challenged with EDIM virus, there was no significant reduction in viral shedding relative to unimmunized controls. Therefore epidermal immunization with VP4 or VP7 alone elicited rotavirus IgG responses but did not protect against homologous rotavirus challenge.

Stimulation of local immunity and protection in mice by intramuscular immunization with triple- or double-layered rotavirus particles and QS-21.

Based on studies in animal models, parenteral immunization has become recognized as a potential vaccination strategy against rotavirus. Using an adult mouse model, the effects of the saponin adjuvant QS-21 on protection against murine rotavirus (strain EDIM) infection was determined following two intramuscular (i.m.) immunizations with purified EDIM particles including triple-layered (tl) infectious particles, tl particles inactivated with psoralen/UV, and double-layered (dl) inactivated particles. All three particles stimulated large serum rotavirus IgG responses and small amounts of serum rotavirus IgA, but undetectable stool rotavirus IgA. Inclusion of QS-21 during immunization increased the serum responses approximately 2- to 10-fold and also stimulated low levels of stool rotavirus IgA. Protection based on reduced shedding of rotavirus following EDIM challenge was significant (P < 0.001) with each immunized group and was enhanced (P < 0.001) by inclusion of QS-21 during immunization. Mice immunized with either live or inactivated tl particles and QS-21 were almost fully protected. Furthermore, animals inoculated with dl particles and the adjuvant shed significantly (P = .02) less virus following challenge than mice immunized with inactivated tl particles even though the latter induced measurable titers of neutralizing antibody to EDIM. These results demonstrate significant protection against rotavirus following i.m. immunization with both dl and tl EDIM particles which is consistently enhanced with QS-21.

Evidence that resolution of rotavirus infection in mice is due to both CD4 and CD8 cell-dependent activities.

The effector functions responsible for resolution of shedding in mice orally inoculated with the murine rotavirus strain EDIM were identified in B-cell-deficient and normal BALB/c mice after monoclonal antibody (MAb) depletion of CD4 and CD8 cells. When depleted of CD8 cells, B-cell-deficient muMt mice resolved their infections more slowly than nondepleted animals, but CD4 cell depletion caused chronic, high-level shedding. This finding indicated that CD4 cell-dependent immunological effectors other than, or in addition to, CD8 cells played roles in rotavirus resolution in muMt mice in the absence of antibody. The roles of CD4 and CD8 cells in resolution of rotavirus shedding were further characterized in immunologically normal BALB/c mice. Depletion of CD4 cells before EDIM inoculation resulted in rapid resolution of most shedding, but chronic, low-level shedding continued for weeks. When the CD4 cell-depleted BALB/c mice were subsequently depleted of CD8 cells, shedding levels increased significantly (P < 0.001), indicating that CD8 cells were responsible for the rapid but incomplete suppression of rotavirus shedding. Further experimentation revealed that little rotavirus antibody was made in CD4 cell-depleted BALB/c mice, and only after CD4 cells were repopulated did antibody production increase and virus shedding fully resolve. Thus, resolution of rotavirus shedding in both muMt and BALB/c mice was associated with CD4 and CD8 cell effector activities.

Particle bombardment-mediated DNA vaccination with rotavirus VP6 induces high levels of serum rotavirus IgG but fails to protect mice against challenge.

The rotavirus inner capsid protein VP6 contains conserved epitopes that are potential targets for eliciting protective immunity against different serotypes within the same group of rotavirus. In order to determine whether VP6 alone can induce protective immunity, an expression vector pcDNA1/EDIM6 containing gene 6 of rotavirus EDIM strain was constructed and used as a vaccine in an adult mouse model. Cloned gene 6 was determined to be 1356 nucleotides long and contained a 5' noncoding region of 23 nucleotides, a 3' noncoding region of 139 nucleotides, and a coding frame of 1194 nucleotides for a polypeptide of 397 amino acid residues. Recombinant VP6 was expressed in rabbit reticulocyte lysate and the heat-denatured recombinant VP6 migrated in SDS-gels with an apparent molecular weight of approximately 43 kDa. Five additional polypeptide bands corresponding to oligomers of recombinant VP6 were observed when the expressed product was not heat denatured. To determine the immunogenicity of recombinant VP6, female BALB/c mice were injected intramuscularly or intradermally with pcDNA1/EDIM6, or were inoculated epidermally with plasmid-coated gold beads using the Geniva Accell particle delivery device. Only intradermal injection and particle delivery elicited measurable serum anti-rotavirus IgG responses, but responses developed following particle delivery were significantly (P < 0.001) greater. However, none of the delivery methods induced serum or stool anti-rotavirus IgA responses and, when challenged with EDIM no protection against infection was observed in the immunized mice. Therefore, parenteral immunization with VP6 alone elicited large anti-rotavirus IgG responses but did not elicit protection against murine rotavirus infection in this model.

Effector functions of antibody and CD8+ cells in resolution of rotavirus infection and protection against reinfection in mice.

The importance of antibody and CD8+ cells in resolution of murine rotavirus (EDIM) infection and protection against reinfection was examined with two strains of B-cell-deficient mice. Following inoculation of one strain (JHD), rotavirus infection was resolved within days, but when later reinoculated with EDIM, these mice again shed rotavirus. Thus, effector mechanisms other than antibody resolved viral shedding in JHD mice but were insufficient to prevent reinfection. EDIM shedding in another B-cell-deficient mouse strain (microMT) diminished but was not fully resolved 93 days after the initial infection, thus demonstrating that antibody could also be important in resolution of rotavirus infection. When depleted of CD8+ cells by monoclonal antibody treatment before EDIM inoculation, JHD mice were unable to resolve shedding. Even though microMT mice did not fully resolve their initial infection, depletion of CD8+ cells 49 days after initial inoculation resulted in a burst of shedding. Thus, CD8+ cells were involved in resolution of the initial EDIM infection in both strains of B-cell-deficient mice. Finally, when microMT mice were depleted of CD8+ cells before the initial EDIM infection, gradual resolution of rotavirus shedding was still observed, suggesting a third effector mechanism was also involved in resolution of rotavirus infection in mice.

Long-term production of rotavirus antibody and protection against reinfection following a single infection of neonatal mice with murine rotavirus.

It has been found that mice infected with murine rotavirus can be protected against subsequent murine rotavirus infection for up to 2 months. It was also reported that protection against rotavirus infection in adult mice correlated with serum and stool rotavirus IgA titers. The present study was conducted to determine the duration of rotavirus antibody production and protection against rotavirus infection in this mouse model and its possible correlation with rotavirus antibody titers. It was found that protection of mice against subsequent infection following a single oral immunization with the murine rotavirus strain EDIM was 100% effective for at least 14 months, most of the lifetime of a mouse. During this period, serum and stool rotavirus antibody titers which included serum IgA, IgG, and neutralizing antibody to EDIM, as well as stool IgA, remained elevated. Of particular note, stool rotavirus IgA titers gradually decreased to levels that were approximately 10% of their peak at 1 month after infection but did not decrease further, while serum rotavirus IgG titers continuously increased during the 14 months of the study. Serum rotavirus IgA titers varied from month to month but overall remained relatively constant throughout the 14-month period. Thus, both serum and stool rotavirus antibody was retained at substantial levels long after a single rotavirus immunization in the absence of reexposure, and mice remained protected against reinfection.