Bana B. Dash

Status of foot-and-mouth disease in India.

Foot-and-mouth disease (FMD) is endemic in India and causes severe economic loss. Status of FMD in the country for five fiscal years is presented. Outbreaks were more in number in 2007-2008 than 2010-2011. Three serotypes of FMD virus (O, A and Asia1) are prevalent. Serotype O was responsible for 80% of the confirmed outbreaks/cases, whereas Asia1 and A caused 12% and 8%, respectively. Geographical region-wise assessment indicated varying prevalence rate in different regions viz; 43% in Eastern region, 31.5% in Southern region, 11.6% in North-eastern region, 5% Central region, 4.4% Western region and 4% in Northern region. Highest number of outbreaks/cases was recorded in the month of September and lowest in June. Emergence and re-emergence of different genotypes/lineages within the serotypes were evident in real-time investigation carried out from time to time. Continues antigenic divergence in serotype A resulted in change in the vaccine strain in 2009. As on date, all genetic diversity within the serotypes is well tolerated by the vaccine strains. Unrestricted animal movements in the country play a major role in the spread of FMD.

Foot-and-mouth Disease: Global Status and Future Road Map for Control and Prevention in India

Foot-and-mouth disease (FMD) is a transboundary, economically devastating and highly contagious viral disease of livestock, most importantly cattle, buffalo and pig. The disease also affects goats, sheep, wild ruminant species and elephants. The causative FMD virus is antigenically diverse having seven distinct serotypes and many variants within them. Being a single stranded RNA virus, it confirms the quasispecies nature with emergences and reemergences of different genetic lineages with altered antigenicity within the serotypes, making vaccination based control programme a high cost effective, time consuming and difficult to achieve. As per the OIE and FAO, the disease is a major threat to food security of the world, and particularly the countries having the disease are more prone to food insecurity. Further, FMD free status is an indicator of development, and all developed countries are free from it. The disease is endemic in India and three serotypes of the virus viz; O, A and Asia1 are circulating. Annual direct loss due to FMD in India has been estimated at Rs. 20,000xa0crores. Many countries in the world are now free from FMD with or without vaccination and presence of the disease in other neighboring countries is a major threat to them. Countries having FMD face trade barrier posed by FMD free countries, causing heavy economic loss to the livestock industry. Progressive control pathway has been developed by FAO for global eradication of FMD. Vaccination based FMD control programme is in operation in India which involves biannual vaccinations of all cattle and buffaloes in selected areas, regular active surveillance and antibody monitoring in vaccinated population with the objective of creating FMD free zones. At present, the disease occurrence, severity of the clinical disease and number of outbreaks have progressively and substantially declined in the control zones as a result of last 10 rounds of vaccination with an oil adjuvanted trivalent inactivated vaccine. In this review, FMD scenario in India and in the world is briefed. Besides, the measures taken for the control and eradication of this devastating disease is presented. Besides, the initial success achieved through the FMD control programme in India, a road map for the control and eradication of FMD at national level is discussed.

Evolutionary dynamics of foot-and-mouth disease virus O/ME-SA/Ind2001 lineage

Foot-and-mouth disease (FMD) virus serotype O Ind2001 lineage within the Middle East-South Asia topotype is the major cause of recent FMD incidences in India. A sub-lineage of Ind2001 caused severe outbreaks in the southern region of the country during 2013 and also reported for the first time from Libya. In this study, we conducted a detailed evolutionary analysis of Ind2001 lineage. Phylogenetic analysis of Ind2001 lineage based on maximum likelihood method revealed two major splits and three sub-lineages. The mean nucleotide substitution rate for this lineage was calculated to be 6.338×10(-3)substitutions/site/year (s/s/y), which is similar to those of PanAsian sub-lineages. Evolutionary time scale analysis indicated that the Ind2001 lineage might have originated in 1989. The sub-lineage Ind2001d that caused 2013 outbreaks seems to be relatively more divergent genetically from other Ind2001 sub-lineages. Seven codons in the VP1 region of Ind2001 were found to be under positive selection. Four out of 24 recent Ind2001 strains tested in 2D-MNT had antigenic relationship value of <0.3 with the serotype O vaccine strain indicating intra-epidemic antigenic diversity. Amino acid substitutions found in these minor variants with reference to antigenic diversity have been discussed. The dominance of antigenically homologous strains indicates absence of vaccine immunity in the majority of the affected hosts. Taken together, the evolution of Ind2001 lineage deviates from the strict molecular clock and a typical lineage evolutionary dynamics characterized by periodic emergence and re-emergence of Ind2001 and PanAsia lineage have been observed in respect of serotype O.

Emergence of a novel lineage genetically divergent from the predominant Ind2001 lineage of serotype O foot-and-mouth disease virus in India

In India, emergence of Ind2001 lineage of foot-and-mouth disease virus (FMDV) serotype O was recorded in the year 2001. After causing sporadic incidences, the Ind2001 lineage that re-surged in 2008 out-competed PanAsia from the field during 2009 and continued its dominance during 2010 and 2011 as well. The lineage has diversified in due course of time, leading to two sub-lineages (Ind2001a and Ind2001b). The sub-lineage Ind2001a include isolates collected during 2001-2002 and sub-lineage Ind2001b is constituted largely by isolates collected during 2008-2012. The nucleotide substitution rate of sub-lineage Ind2001b was estimated at 6.58×10⁻³ substitutions/site/year. The most stable PanAsia lineage is restricted only to few outbreaks. During 2011, emergence of a new genetic group with >9% nucleotide divergence from rest of the lineages circulating in the country was detected and named as lineage Ind2011. Two specific amino acid substitutions at positions VP1-36 (F) and VP2-133 (T) were observed in the Ind2011 lineage. The new lineage at present is restricted only to southern states of the country. It is uncertain whether the emergence was triggered by immune pressure or due to a bottleneck in transmission or selected for higher fitness value. Six sites (4, 68, 83, 135, 138 and 209) in VP1 protein were identified to undergo episodic diversifying selection in serotype O field isolates. Both emerging and re-emerging lineages had appropriate antigenic match with currently used vaccine strain, INDR2/1975. Irrespective of genetic variability, the field isolates showed remarkable conservation at antigenically critical residues that might contribute to the observed antigenic stability. With the emergence of a new genetic group after a span of 10 years, the overall epidemiological scenario in the region is expected to change in the coming years.

Serological evidence of foot-and-mouth disease virus infection in randomly surveyed goat population of Orissa, India.

India is endemic for foot-and-mouth disease (FMD), and goats constitute the second largest susceptible population of domestic livestock. FMD surveillance and control strategies in the country largely ignore small ruminants, known to be critical in the epidemiology of the disease. Here, serological investigations were carried out to generate estimates of antibody prevalence in goats of Orissa state to both non-structural (NSP-Ab) and structural proteins (SP-Ab) of FMD. The apparent overall NSP-Ab and SP-Ab seroprevalences were 38% and 20.7%, respectively, which signifies a very high level of FMD virus circulation in the goat population despite the lack of clinical signs in this species. The apparent prevalence of NSP-Ab and SP-Ab was positively correlated in the sampling areas. Interestingly, the values found for NSP-Ab prevalence were almost consistently higher than those found for SP-Ab prevalence. This could have been attributable to either issues related to sensitivity and specificity of the test systems employed or differences in the post-infection kinetics of NSP- and SP-Ab. The pattern that emerged from SP-Ab analysis indicated goats being infected with all three prevalent serotypes (O, A and Asia 1) and reinforces the concept that non-vaccinated goats can be exploited as tracer animals for detecting serotypes involved in outbreaks. The results underscore the requirement to bring caprine species under comprehensive surveillance and vaccination campaigns to check silent amplification, excretion and transmission of the virus.

Quantitative characteristics of the foot-and-mouth disease carrier state under natural conditions in India

The goal of this study was to characterize the properties and duration of the foot-and-mouth disease (FMD) carrier state and associated serological responses subsequent to vaccination and naturally occurring infection at two farms in northern India. Despite previous vaccination of cattle in these herds, clinical signs of FMD occurred in October 2013 within a subset of animals at the farms containing juvenile-yearling heifers and steers (Farm A) and adult dairy cattle (Farm B). Subsequent to the outbreak, FMD virus (FMDV) asymptomatic carriers were identified in both herds by seroreactivity to FMDV non-structural proteins and detection of FMDV genomic RNA in oropharyngeal fluid. Carriers seroreactivity and FMDV genome detection status were subsequently monitored monthly for 23xa0months. The mean extinction time of the carrier state was 13.1xa0±xa00.2xa0months, with extinction having occurred significantly faster amongst adult dairy cattle at Farm B compared to younger animals at Farm A. The rate of decrease in the proportion of carrier animals was calculated to be 0.07 per month. Seroprevalence against FMDV non-structural proteins decreased over the course of the study period, but was found to increase transiently following repeated vaccinations. These data provide novel insights into viral and host factors associated with the FMDV carrier state under natural conditions. The findings reported herein may be relevant to field veterinarians and governmental regulatory entities engaged in FMD response and control measures.

Efficient rescue of foot-and-mouth disease virus in cultured cells transfected with RNA extracted from clinical samples

In this study, an RNA transfection was used to rescue infectious foot-and-mouth disease (FMD) virus from clinical samples in BHK-21 cell line for diagnosis of FMD. Tissue samples (n=190) were subjected to FMD virus isolation by conventional cell culture and also by RNA transfection. FMD virus was isolated from 62% of the clinical samples by RNA transfection, whereas virus was isolated only from 16% of the clinical samples in conventional cell culture method, suggesting better performance of the RNA transfection. Virus was rescued from 67% and 10% of ELISA negative but multiplex PCR positive samples by RNA transfection and conventional cell culture, respectively. The efficiency of transfection was studied on clinical samples subjected to temperature as high as 37°C and varying pH (pH 4-9). Except up to 1 week of storage at 4°C at pH 7.5, virus isolation was not possible by cell culture. Virus was rescued by transfection from samples stored at 4°C for any of the applied pH up to 4 weeks, and when stored at 37°C virus could be rescued up to 4 weeks at pH 7.5 suggesting the fitness of transfection to isolate virus from clinical samples stored under inappropriate conditions. The sequence data and antigenic relationships with the vaccine strains, between virus rescued by transfection and conventional cell culture, were comparable. The RNA transfection will help to increase the efficiency of virus isolation, diagnosis and molecular epidemiological studies.

Phylogeny and genetic diversity of foot and mouth disease virus serotype Asia1 in India during 1964-2012

Foot and mouth disease virus (FMDV) serotype Asia1 was first identified in India in 1951 and since then causing significant proportion of FMD outbreaks in the country. In this paper genetic analysis of 219 isolates from India collected over a period of 48 years is described. Bayesian approach was used to estimate the date of divergence and evolutionary rate. Phylogenetic analysis indicated the circulation of three lineages (B, C and D) of which lineage B formed one genotype (I) which was prevalent during 1964-2000. Genotype II constituted by lineage C and D has been in circulation since 1979 till date. We observed dramatic form of clade turnover in serotype Asia1 in India. The time scale analysis indicated that the most recent common ancestors for Indian Asia1 strains existed around 77 years ago. The evolutionary rate of serotype Asia1 viruses (genotype II) from India was estimated at 5.871×10(-3) substitutions per site, per year. We observed several connections in our phylogeographic analysis indicating intense flow of virus among states. The antigenically critical sites were frequently substituted and positive selection was evident at many sites. Maximum likelihood analysis suggested that the strains circulating in the country since 2005 were different from the genetic groups (I-VII) identified earlier and designated here as Group VIII.

Diagnostic assays developed for the control of foot-and-mouth disease in India.

Foot-and-mouth disease (FMD) is a highly contagious and economically devastating disease of livestock, primarily affecting cattle, buffalo and pigs. FMD virus serotypes O, A and Asia1 are prevalent in India and systematic efforts are on to control and eventually eradicate the disease from the country. FMD epidemiology is complex due to factors like co-circulation, extinction, emergence and re-emergence of genotypes/lineages within the three serotypes, animal movement, diverse farm practices and large number of susceptible livestock in the country. Systematic vaccination, prompt diagnosis, strict biosecurity measures, and regular monitoring of vaccinal immunity and surveillance of virus circulation are indispensible features for the effective implementation of the control measures. Availability of suitable companion diagnostic tests is very important in this endeavour. In this review, the diagnostic assays developed and validated in India and their contribution in FMD control programme is presented.

Capsid coding region diversity of re-emerging lineage C foot-and-mouth disease virus serotype Asia1 from India

Foot-and-mouth disease virus (FMDV) serotype Asia1 was first reported in India in 1951, where three major genetic lineages (B, C and D) of this serotype have been described until now. In this study, the capsid protein coding region of serotype Asia1 viruses (nxa0=xa099) from India were analyzed, giving importance to the viruses circulating since 2007. All of the isolates (nxa0=xa050) recovered during 2007-2013 were found to group within the re-emerging cluster of lineage C (designated as sublineage CR). The evolutionary rate of sublineage CR was estimated to be slightly higher than that of the serotype as a whole, and the time of the most recent common ancestor for this cluster was estimated to be approximately 2001. In comparison to the older isolates of lineage C (1993-2001), the re-emerging viruses showed variation at eight amino acid positions, including substitutions at the antigenically critical residues VP279 and VP2131. However, no direct correlation was found between sequence variations and antigenic relationships. The number of codons under positive selection and the nature of the selection pressure varied widely among the structural proteins, implying a heterogeneous pattern of evolution in serotype Asia1. While episodic diversifying selection appears to play a major role in shaping the evolution of VP1 and VP3, selection pressure acting on codons of VP2 is largely pervasive. Further, episodic positive selection appears to be responsible for the early diversification of lineage C. Recombination events identified in the structural protein coding region indicates its probable role in adaptive evolution of serotype Asia1 viruses.