key: cord-0996733-2whey46n authors: Thibault, Jean-Christophe; Bouvet, Jérôme; Cupillard, Lionel; Cariou, Carine; Oberli, Frantz title: Compatibility Between A Rabies Vaccine and Two Canine Combined Vaccines Against Canine Distemper, Adenovirosis, Parvovirosis, Parainfluenza Virus Disease and Leptospirosis, With or without Canine Coronavirus date: 2022-04-02 journal: Comp Immunol Microbiol Infect Dis DOI: 10.1016/j.cimid.2022.101803 sha: a122b8999416ad9e423dd8444c66d9d0d9b985b9 doc_id: 996733 cord_uid: 2whey46n In many countries, vaccination programs still require dogs to be vaccinated against rabies in addition to Canine distemper virus (CDV), adenovirus (CAV), parvovirus (CPV), parainfluenza virus (CPiV), Leptospira (L) or Canine coronavirus (CCV= Cv). Few vaccines containing all these antigens are commercially available and, unless compatibility between the vaccines was demonstrated, concurrent administration of a DAPPi-L(Cv) vaccine and a vaccine against rabies should not be recommended. This may be of concern for practitioners who wish to vaccinate dogs with all components on the same day. This study aimed at evaluating immunological compatibility between a monovalent rabies vaccine (Rabisin™) and two large combination vaccines against CDV, CAV, CPV, CPiV with 2 leptospira components +Cv (Recombitek® C6/Cv) or with 4 Leptospira components (Recombitek® C8), when injected concomitantly at two separate injection sites. Fourteen days after administration of the rabies vaccine, with or without concomitant administration of combo vaccines, all dogs had seroconverted against rabies and maintained protective titers over the duration of the study. In addition, 100% of the puppies vaccinated with one or the other combo vaccines seroconverted against CDV, CAV, CPV, CPiV (CCV) and Leptospira, whatever the vaccination group. Lack of immunological interference between Rabisin™ and all components of the Recombitek® C6/Cv or Recombitek® C8 Combo vaccines was demonstrated by non-inferiority analysis, except for CDV in the Recombitek®C8 + Rabisin™ group. Based on these results, a concomitant administration of Rabisin™ with Recombitek® C6/Cv or Recombitek® C8 can be recommended in daily practice, which can be essential for facilitating vaccination compliance. Beside receiving the basic vaccination course against canine distemper virus (CDV), adenovirus (CAV), parvovirus (CPV), parainfluenza virus (CPiV) and leptospirosis, many dogs in the world still require to be vaccinated against rabies, especially in areas where the disease remains prevalent and/or vaccination is still mandatory. As long as all those vaccines were administered annually, practitioners were prompted to use large combination vaccines, which included the rabies component. But both the epidemiological situation and vaccine recommendation have evolved, making such combinations less adapted. Indeed, due to successful rabies control, routine vaccination against rabies is no longer recommended in many countries and this component doesn't need to be systematically included in basic vaccination schemes (Day et al, 2016) . Nevertheless, regular vaccination against rabies remains recommended where the disease still causes a threat, especially in Asia, Africa and some areas in South America (Day, 2015) . In addition, international vaccination guidelines (Day et al,2016; Ford et al, 2017) recognize that all vaccines do not have same duration of immunity (DOI) and recommend to split vaccines, in particular the rabies ones, as much as possible. As a matter of fact, even if rabies vaccination has to be administered annually by law in some high-risk countries, many rabies vaccines have demonstrated duration of immunity of up to 3 years or even above (Dodds et al, 2020) . The same applies to components such as CPV, CDV and CAV which DOI can also, in some extend, be monitored through antibody level follow-up, whereas other components, such as Leptospira (L) and Canine Parainfluenza (CPi), usually require to be readministered every year. As a consequence, veterinarians require manufacturers to provide rabies component as a separate option for allowing more flexibility. Finally, several studies have shown that some components may interfere with the anti-rabies immune response when administered together in the same syringe, this being likely linked to some physico-chemical interactions (Cliquet et al, 2003) Such larger combinations are usually leading to decreased duration of immunity of the rabies component. These interferences may also occur, even when vaccines are administered at two different injection sites, unless the opposite has been demonstrated, as it has been shown in previous studies (Bouvet et al, 2018) . However, practitioners are asking for solutions allowing to vaccinate dogs with all components on the same day, in order to make vaccination compliance easier to achieve for dog owners. The objective of this study was to analyze the lack of immunological interference between a J o u r n a l P r e -p r o o f monovalent rabies vaccine (Rabisin™) and two large combination vaccines against canine distemper virus (CDV), adenovirus (CAV), parvovirus (CPV), parainfluenza virus (CPiV) and leptospirosis 2-1 way (Recombitek ® C6*) or 4-way (Recombitek ® C8*), when injected concomitantly at two separate injection sites. Simultaneous administration (mixing the vaccines and injecting them at the same site) was not tested, since studies have shown that some bacterial components are likely to modify the immune response to other antigens after the vaccines are mixed (Cliquet et al, 2003) . Injection of the vaccines at separate sites may prevent such interaction. Recombitek ® C8: freeze-dried vaccine containing a recombinant canarypox expressing glycoproteins HA and F of the canine distemper virus (CDV) and 3 live attenuated viruses Twenty-five specific pathogen-free (SPF), specific Maternal-Derived Antibody (MDA)-free Beagle puppies over 15 weeks of age were provided by a commercial supplier and allocated randomly into five groups (A to E) of 5 animals each, according to sex and age. All puppies were chipped (Indexel TM ) and were allowed to acclimatize during 4 days prior to the study. On days 0 and 21, puppies from Groups A and B received one subcutaneous injection of Recombitek ® C8. On the same days, puppies from group C and D received one subcutaneous 1 *All vaccines are produced by Boehringer Ingelheim Animal Health J o u r n a l P r e -p r o o f injection of Recombitek ® C6/CV. On day 21, puppies from Group A and C also received an injection of Rabisin ™ at a separate injection site. Puppies from Group E only received a single injection of Rabisin ™ on day 21. Blood samples were drawn from all puppies on days 0, 21, 28, 35, 49, 63, and 83 then processed into serum, aliquoted and kept frozen until analysis. All puppies were checked daily for possible local and general adverse reaction(s) throughout the duration of the study. Titration of anti-rabies antibodies from Groups A, C and E was carried out in an OIE accredited (log 10 SN 50 ). Sera were considered positive for titres above 0.48 (log 10 SN 50 ) Titration of anti-CPV and anti-CPiV was carried out with proprietary blocking ELISA. In summary, plates are coated with respectively anti-VP2 (for CPV) or CPiV capture monoclonal antibody. Then, a previously co-incubated mixture of tested sera and a fixed amount of respectively CPV2 or CPi virus are added to the wells. A monoclonal anti-VP2 or anti-CPiV antibody coupled to peroxidase is finally added before being revealed by adding the substrate. The titres of positive control and test sera are calculated by regression and expressed as titre OD 50 . OD is inversely proportional to the amount of antibody and titers are expressed as log 10 OD 50 compared to the reference positive sera. Positive threshold was set at 1.00 log 10 OD 50 for CPV and 2.22 log 10 OD 50 for CPiV. CCV antibodies were titrated according to a serum neutralization-based technique. In brief, serial 1:2 dilutions of the samples to be tested are performed on a plate to which the prediluted J o u r n a l P r e -p r o o f 6 reference virus at the required concentration (TCID50/ 50µl) is added. 100 µl of Crandell-Rees Feline Kidney (CRFK) cells in specific medium are then added to the wells and plates incubated for 5 to 7 days at 37°C in a 5 ± 1% CO2 atmosphere. Cytopathic effect is finally determined by examining the plate under a fluorescent microscope. Results are expressed as the highest dilution of serum that protects 50% of the wells against viral infection. Titers above 0.2 (log 10 SN 50 ) are considered as positive. Anti-leptospiral antibodies for serovars Canicola, Icterohaemorrhagiae and Grippotyphosa, were also titrated by a proprietary blocking ELISA as described in a recent publication (Cariou et al, 2020) . Antibodies against Leptospira Pomona were titrated by microagglutination technique (MAT) at the Institut Pasteur, National Reference Center for Leptospirosis, Paris (France) Statistical analyses were carried out using SAS release 9.4 (SAS Institute, Cary, NC) with a onesided test and level of significance at 0.05, except for analyses with descriptive purposes, which include two-sided 95% confidence intervals. The primary endpoints for efficacy analysis are the titers measured at different time points (period D0 to D84) for each valence. For each valence, the descriptive statistics along with twosided 95% confidence intervals (CI) were calculated per day and group on the log-transformed titer (log2 scale for Lp and log10 scale for all other valences). Mean, Standard Deviation (SD), and 95% CI are provided on a log-transformed scale (arithmetic mean and standard deviation) and on the original scale of the antibody titers (geometric mean and geometric standard deviation). The lack of immunological interference between Rabisin™ and Recombitek ® C6 and C8 components was evaluated on the maximum titer obtained for each valence over the measurement period D35 to D49. Non-inferiority was assessed for the group comparisons and the maximum antibody titers. For each group comparison and valence, the maximum loss of serological efficacy used to demonstrate that the association of the test vaccine is non-inferior to the reference vaccine is set to  L = 0.602 on the log10-transformed scale for all valences except Lp, and  L = 2 on the log2-transformed scale for Lp. The lower limit of the one-sided 1-alpha confidence interval was computed for alpha=0.05. For each comparison, a Student's t test was carried out to provide the corresponding p-value. The results of the non-inferiority analyses were also back transformed in order to provide the geometric mean ratio (GMR) and its 1-alpha onesided confidence interval. The corresponding non-inferiority margins are 25% on the ratio scale. A secondary endpoint was the immune response for each valence (seroprotection or seroconversion). Protection rates for Rabies (as determined by the WHO cut-off value of 0,5 IU/mL) or response rates (other antigens) along with the two-sided 95% confidence interval were calculated by day (D35, D49, D63, and D84) and group. Fourteen days after administration of the rabies vaccine, all dogs had seroconverted, exceeding the WHO protective level against rabies. One single administration of rabies vaccine, alone or concurrently with DAPPi-L4 (Recombitek ® C8) or DAPPi/CV-L2 (Recombitek ® C6/CV) vaccines, induced high rabies virus-neutralizing titres in all vaccinated puppies (Fig 1) . All individual titres rose above the WHO positivity threshold of 0.5 IU/ml and remained higher than this level throughout the rest of the study. Mean titres were above 3 IU/ml in all rabiesvaccinated groups whatever the sampling day starting from D35, which is consistent with the ability of puppies older than 12 weeks to respond well to rabies vaccine (Cliquet et al, 2003) . There was no significant difference between the three groups, whether vaccinated with Rabisin™ only, or concomitantly with the large Combo vaccines, showing the absence of interference of the DAPPi (CV) and leptospiral components with rabies vaccine-induced seroconversion. All puppies seroconverted against CDV, CAV CPV and CPiV, whatever the group receiving one of the combo vaccines (table 1) . For CCV, the percentage of responders varied from as low as 20% to up to 40% (Table 1) , whatever the group (with or without Rabisin™). One puppy in group D (Recombitek ® C6/CV without Rabisin™) had a low response to CDV vaccination and was non-responsive at D84. Similarly, one puppy in group A (Recombitek ® C8+Rabisin™) was low responder throughout the duration of the study. This profile can nevertheless be expected for a Canarypox-based CDV vaccine which tends to favor cellular immunity over the humoral one, similarly to some other modified live vaccines (Pardo et al, 1997) . The kinetics of seroneutralizing titres against CDV and CAV and ELISA titres against CPV and CPiV are presented in Fig 2a and 2b . All the puppies were seronegative on day 0 as a result of their SPF unvaccinated status. One injection was sufficient to induce high antibody titres against CAV in all vaccinated puppies from groups A, B, C and D. Strong antibody titres rise was observed after single CPV vaccine administration. Seroconversion against CDV usually required J o u r n a l P r e -p r o o f two injections. Comparison of mean titres against CDV, CAV, CPV and CPiV did not show any significant difference between groups A and B, respectively vaccinated with Recombitek ® C8 alone or Recombitek ® C8+Rabisin™ as well as between groups C and D respectively vaccinated with Recombitek ® C6/CV alone or Recombitek ® C6/CV +Rabisin™. It should be noted that one of the non-vaccinated puppies in the control group displayed a CPiV titer of 2.23 log 10 OD 50 , right above the threshold set statistically at 2.22 log 10 OD 50 and should be considered as false positive. Similarly, there was no significant difference between groups vaccinated with C6/CV alone or C6/CV + Rabisin™ regarding the mean kinetics of ELISA antibodies against CCV (data not shown). Results for the mean kinetics of antibodies against Leptospira components are presented in Figure 3 , as measured in their respective ELISA test. In all groups, antibodies against Leptospira serovars Canicola and Icterohaemorrhagiae started to raise strongly already from the first injection, peaking at day 28, slightly decreasing till day 63 for serovar Canicola, Grippotyphosa and Pomona. Similar antibody profiles were seen for serovars Grippotyphosa in groups A and B which both were administered the Recombitek ® C8 vaccine. Antibody kinetics for serovar Pomona had a slightly different profile, peak being reached after the second injection at D35. In terms of immune response (percentage of responders), 100% of the puppies responded to vaccination against serovars Canicola and Icterohaemorrhagiae in all groups, except those from group E who only received the rabies vaccine. All puppies responded to vaccination against serovars Grippotyphosa and Pomona in group A and B vaccinated with Recombitek ® C8. One puppy became seronegative for serovar Pomona in group B (Recombitek ® C8 without Rabisin™) from day 49, despite an early seroconversion, as measured by MAT (table 2) . From a statistical point of view, non-inferiority was demonstrated for all components between corresponding groups (A vs. B and C vs. D), except CDV for which results of the test was nonconclusive (Table 3) . For this latter component, this was related to one puppy in group A (Recombitek ® C8 + Rabisin™) being a low responder. Antibody titres are markers of the immunogenicity of for most vaccine components (Tizard and Ni, 1998) and may also be correlated with protection, as is the case for rabies, CDV and CAV -J o u r n a l P r e -p r o o f neutralizing antibodies, as well as CPV ELISA antibodies (Twark and Dodds, 2000; Schultz, 2006; Litster et al., 2012; Jensen et al., 2015; Decaro and Buonavoglia, 2017) . For these antigens, the absence of vaccine interference can be demonstrated by serology. In this study, all vaccinated dogs raised protective titres against rabies and/or distemper, adenovirus and parvovirus without significant differences between the corresponding groups. In particular, the response to rabies vaccination was not affected by the concomitant administration of the Combo vaccines, even though they are including several leptospiral components. It is also noticeable that response to the parvoviral component was very strong, all puppies seroconverting after a single administration of vaccine. This shows that, in absence of maternal derived antibodies, puppies are able to mount very quickly an effective and protective immunity. For CPiV, despite antibody titres are not strictly correlated to protection, the comparable antibody kinetics suggests that the different combinations (combos with or without rabies) have equivalent immunogenicity. Of notice, there was an overall poor response to the CCV component which, in conjunction with the poor proof of virulence of street virus, shows that CCV vaccine is probably not very useful. This is in line with the international vaccination guidelines which have classified this valence as "nonrecommended". For leptospiral components, ELISA test was preferred to MAT when available, as MAT titres are generally low and short-lived (Martin et al., 2014; Sykes et al., 2011) . Efficacy studies conducted with different leptospiral vaccines, whether combined or not, have shown that most dogs, despite not having any detectable agglutinating antibodies after vaccination, are protected against severe challenge reproducing Leptospira acute disease (Bouvet et al., 2016) . Agglutinins are therefore unlikely to be the only protective immune mechanism and not strictly correlated to protection. Other analytical techniques such as serogroup specific ELISA (Sumanth Kumar et al., 2013) are interesting to better characterize antibody response against Leptospira. Internally developed ELISA tests were therefore used for serogroups Canicola, Icterohaemorrhagiae, Grippotyphosa (Cariou et al, 2020) . Due to their higher sensitivity, these tests enable a better follow-up of postvaccinal antibodies. As an ELISA was still not available for serovar Pomona, MAT remained the test performed for measuring the antibody response. Interestingly, those results were also the most variable over the time, which is consistent with the lower sensitivity of this technique. The results were consistent for all antigens and demonstrate the absence of interference between the rabies vaccine and the Recombitek ® C8 or Recombitek ® C6/CV Combo vaccines, when considering the humoral responses. Overall, non-inferiority could be demonstrated for most components, except for Canine distemper, whereby this was related to one low-responder puppy. It is worth noting that those non-inferiority results were already obtained with a limited number J o u r n a l P r e -p r o o f of puppies per group, all groups displaying similar antibody profiles and responses to vaccination. In particular, it is of utmost importance that Rabisin™, whether administered alone or concomitantly with large Combo vaccines such as Recombitek ® C6CV and Recombitek ® C8, was able to induce a rapid and strong immune response in all puppies. In particular, the number of valences did not lead to any interference with the immune response to rabies or each other. This study also confirms the ability of Rabisin™ to induce consistently protective titres against rabies in puppies, whether it is administered alone or concomitantly with other commonly used vaccines. These findings are also consistent with the results of another study performed in cats where Rabisin™ induced a very strong seroconversion when administered concomitantly at two separate injection sites with a large combination vaccine (Purevax TM RCPChFeLV) (Guiot et al, 2008) . Practitioners can therefore confidently administer these vaccines on the same day, as long as they are administered at two separate injection sites. This will facilitate vaccination compliance, in particular against rabies, over the life of the dog. It will also provide the necessary flexibility for offering vaccine suited to the patient needs. Indeed, practitioners should be encouraged to adapt vaccination schemes to their individual patients' lifestyles and risks, with core valences including CDV, CAV and CPV for non-rabies countries and CDV, CAV CPV plus rabies in those countries where the disease is still prevalent -whereas non-core vaccines against CPiV, Threshold CAV J o u r n a l P r e -p r o o f Oberli are employees of Boehringer Ingelheim Animal health. JC Thibault is a former employee of Boehringer Ingelheim Animal Health and was involved in the set-up of the study The authors would like to thank Frederic David for his contribution to the study protocol and the analytical lab team for performing the various tests. Special thanks to Jean-Philippe Tronel for his careful proof-reading and coordination of the co-author team. J. Bouvet, L. Cupillard, C. Cariou, and F. Oberli are employees of Boehringer Ingelheim Animal health. JC Thibault is a former employee of Boehringer Ingelheim Animal Health and was