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result(s) for
"Sanyal, Aniket"
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Lumpy Skin Disease Virus Infection in Free-Ranging Indian Gazelles ( Gazella bennettii ), Rajasthan, India
by
Chatterji, Suchismita
,
Sanyal, Aniket
,
Sudhakar, Shashi Bhushan
in
Animal husbandry
,
Animals
,
Antelopes
2023
Near a zoo in Bikaner, India, 2 free-ranging Indian gazelles (Gazella bennettii) displayed nodular skin lesions. Molecular testing revealed lumpy skin disease virus (LSDV) infection. Subsequent genome analyses revealed LSDV wild-type strain of Middle Eastern lineage. Evidence of natural LSDV infection in wild gazelles in this area indicates a broadening host range.
Journal Article
Evaluation of Safety, Immunogenicity and Efficacy of an Inactivated Bovine Viral Diarrhea Virus (BVDV-1) Vaccine Candidate in Cattle
by
Sudhakar, Shashi Bhusan
,
Kalaiyarasu, Semmannan
,
Sanyal, Aniket
in
Adjuvants
,
Animal diseases
,
Animals
2026
Bovine viral diarrhea (BVD) is a globally significant disease that adversely affects cattle health and productivity, including in India. It is caused by three bovine pestiviruses:
(BVDV-1), BVDV-2, and
(HoBiPeV), which belong to the
genus within the
family. Despite the prevalence of all three pestivirus species in India, no commercial vaccine based on the local circulating strain is currently available. This study evaluates the safety, immunogenicity, and protective efficacy of an inactivated whole-virus BVD vaccine, based on an Indian BVDV-1 strain. The virus was propagated in MDBK cells, inactivated using 3 mM binary ethylenimine (BEI) for 24 h at 37 °C, and formulated with Montanide ISA 61 VG (SEPPIC) in a 50:50 water-in-oil emulsion. Vaccine safety was confirmed in both guinea pigs and bovine calves, with no adverse effects observed. Immunogenicity testing in guinea pigs (
= 6) showed neutralizing antibody titres up to 9 log
(1/512). In calves aged 9-12 months (
= 3), the vaccine elicited strong humoral and cell-mediated immune responses, with mean neutralizing antibody titres against the homologous BVDV-1 strain reaching 14 log
(1/16,384). Neutralizing antibody levels remained detectable for up to 12 months post vaccination with sustained mean titres of 7 log
(1/128). Notably, titres reported to be adequate for fetal protection (≥9 log
or ≥1/512 were maintained for five months following vaccination. Challenge studies demonstrated complete protection of vaccinated calves against homologous BVDV-1 acute infection. In addition, the vaccine conferred partial cross-protection against heterologous strains including BVDV-2 and HoBiPeV. In a field trial involving 125 cattle, 74% of animals developed protective neutralizing titres (≥7 log
or ≥1/128), while 48% achieved titres reported to be adequate for fetal protection (9 log
or 1/512). Furthermore, 92% of vaccinated cattle maintained neutralizing antibody titres of at least 6 log
(≥1/64) for up to six months post-booster vaccination. A strong positive correlation was observed between guinea pig and bovine antibody responses (R
= 0.6809;
< 0.0001), indicating the potential of guinea pigs as a predictive model. Vaccine stability was confirmed for up to 8 months when stored at 4 °C, as demonstrated by the immunogenicity in guinea pigs. Collectively, these findings demonstrate that the locally developed inactivated BVDV-1 vaccine is safe, highly immunogenic, and capable of providing protective immunity against BVDV-1 infection, supporting its potential use in BVD control programs in India.
Journal Article
Complete Genome Analysis of African Swine Fever Virus Isolated from Wild Boar, India, 2021
by
Neihthangpuii, C.
,
Singh, Fateh
,
Sanyal, Aniket
in
African swine fever
,
African Swine Fever - epidemiology
,
African Swine Fever - virology
2025
Complete genome analysis of African swine fever virus isolated from a wild boar in Mizoram, India, revealed ≈99% nucleotide identity with those of domestic pig origin but with unique mutations. A One Health approach toward food security necessitates awareness among veterinary and public health professionals on virus evolution and domestic-wild pig transmission.
Journal Article
Foot-and-Mouth Disease Virus: Immunobiology, Advances in Vaccines and Vaccination Strategies Addressing Vaccine Failures—An Indian Perspective
by
Chaicumpa, Wanpen
,
Gupta, Vivek Kumar
,
Dhama, Kuldeep
in
Animal vaccines
,
Animals
,
Epidemiology
2019
A mass vaccination campaign in India seeks to control and eventually eradicate foot-and-mouth disease (FMD). Biosanitary measures along with FMD monitoring are being conducted along with vaccination. The implementation of the FMD control program has drastically reduced the incidence of FMD. However, cases are still reported, even in regions where vaccination is carried out regularly. Control of FMD outbreaks is difficult when the virus remains in circulation in the vaccinated population. Various FMD risk factors have been identified that are responsible for FMD in vaccinated areas. The factors are discussed along with strategies to address these challenges. The current chemically inactivated trivalent vaccine formulation containing strains of serotype O, A, and Asia 1 has limitations including thermolability and induction of only short-term immunity. Advantages and disadvantages of several new-generation alternate vaccine formulations are discussed. It is unfeasible to study every incidence of FMD in vaccinated animals/areas in such a big country as India with its huge livestock population. However, at the same time, it is absolutely necessary to identify the precise reason for vaccination failure. Failure to vaccinate is one reason for the occurrence of FMD in vaccinated areas. FMD epidemiology, emerging and re-emerging virus strains, and serological status over the past 10 years are discussed to understand the impact of vaccination and incidences of vaccination failure in India. Other factors that are important in vaccination failure that we discuss include disrupted herd immunity, health status of animals, FMD carrier status, and FMD prevalence in other species. Recommendations to boost the search of alternate vaccine formulation, strengthen the veterinary infrastructure, bolster the real-time monitoring of FMD, as well as a detailed investigation and documentation of every case of vaccination failure are provided with the goal of refining the control program.
Journal Article
Whole-Genome-Sequence-Based Evolutionary Analyses of HoBi-like Pestiviruses Reveal Insights into Their Origin and Evolutionary History
by
Moorthy, Dashprakash
,
Subramaniam, Saravanan
,
Sudhakar, Shashi Bhusan
in
Animals
,
Bayes Theorem
,
Bayesian analysis
2023
HoBi-like pestivirus (HoBiPeV), classified under Pestivirus H species, is an emerging cattle pathogen of high economic impact. However, the origin and evolution of HoBiPeV are not very clear due to a lack of full genomic sequences from diverse clades. This study aimed to determine full-genome sequences of HoBiPeV strains of three novel clades (c, d and e) and perform full-genome-based genetic and evolutionary analyses. Bayesian phylogenetic analyses herein confirmed the existence and independent evolution of four main HoBiPeV clades (a, c, d and e) globally, with genetic divergence ranging from 13.0% to 18.2%. Our Bayesian molecular clock estimates revealed that HoBiPeV most likely originated in India, with a dated tMRCA of 1938 (1762–2000), evidencing a more recent origin of HoBiPeV. The evolution rate of HoBiPeV was estimated to be 2.133 × 10−3 subs/site/year at full-genome level but varied widely among individual genes. Selection pressure analyses identified most of the positively selected sites in E2. Additionally, 21.8% of the ORF codon sites were found under strong episodic diversifying selection, providing first evidence of negative selection in HoBiPeV evolution. No recombination event was evident for HoBiPeV-c, d and e strains. These findings provide new insights into HoBiPeV origin and evolutionary history for better understanding the epidemiology and host–pathogen interactions and stimulate vaccine research.
Journal Article
Bayesian Molecular Dating Analyses Combined with Mutational Profiling Suggest an Independent Origin and Evolution of SARS-CoV-2 Omicron BA.1 and BA.2 Sub-Lineages
2022
The ongoing evolution of severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) has resulted in the recent emergence of a highly divergent variant of concern (VOC) defined as Omicron or B.1.1.529. This VOC is of particular concern because it has the potential to evade most therapeutic antibodies and has undergone a sustained genetic evolution, resulting in the emergence of five distinct sub-lineages. However, the evolutionary dynamics of the initially identified Omicron BA.1 and BA.2 sub-lineages remain poorly understood. Herein, we combined Bayesian phylogenetic analysis, mutational profiling, and selection pressure analysis to track the virus’s genetic changes that drive the early evolutionary dynamics of the Omicron. Based on the Omicron dataset chosen for the improved temporal signals and sampled globally between November 2021 and January 2022, the most recent common ancestor (tMRCA) and substitution rates for BA.1 were estimated to be that of 18 September 2021 (95% highest posterior density (HPD), 4 August–22 October 2021) and 1.435 × 10−3 (95% HPD = 1.021 × 10−3 − 1.869 × 10−3) substitution/site/year, respectively, whereas 3 November 2021 (95% highest posterior density (HPD) 26 September–28 November 2021) and 1.074 × 10−3 (95% HPD = 6.444 × 10−4 − 1.586 × 10−3) substitution/site/year were estimated for the BA.2 sub-lineage. The findings of this study suggest that the Omicron BA.1 and BA.2 sub-lineages originated independently and evolved over time. Furthermore, we identified multiple sites in the spike protein undergoing continued diversifying selection that may alter the neutralization profile of BA.1. This study sheds light on the ongoing global genomic surveillance and Bayesian molecular dating analyses to better understand the evolutionary dynamics of the virus and, as a result, mitigate the impact of emerging variants on public health.
Journal Article
Computational insights into RNAi-based therapeutics for foot and mouth disease of Bos taurus
by
Sahu, Tanmaya Kumar
,
Rao, Atmakuri Ramakrishna
,
Varghese, Cini
in
Algorithms
,
Animals
,
Cattle
2020
Foot-and-mouth disease (FMD) endangers a large number of livestock populations across the globe being a highly contagious viral infection in wild and domestic cloven-hoofed animals. It adversely affects the socioeconomic status of millions of households. Vaccination has been used to protect animals against FMD virus (FMDV) to some extent but the effectiveness of available vaccines has been decreased due to high genetic variability in the FMDV genome. Another key aspect that the current vaccines are not favored is they do not provide the ability to differentiate between infected and vaccinated animals. Thus, RNA interference (RNAi) being a potential strategy to control virus replication, has opened up a new avenue for controlling the viral transmission. Hence, an attempt has been made here to establish the role of RNAi in therapeutic developments for FMD by computationally identifying (i) microRNA (miRNA) targets in FMDV using target prediction algorithms, (ii) targetable genomic regions in FMDV based on their dissimilarity with the host genome and, (iii) plausible anti-FMDV miRNA-like simulated nucleotide sequences (SNSs). The results revealed 12 mature host miRNAs that have 284 targets in 98 distinct FMDV genomic sequences. Wet-lab validation for anti-FMDV properties of 8 host miRNAs was carried out and all were observed to confer variable magnitude of antiviral effect. In addition, 14 miRBase miRNAs were found with better target accessibility in FMDV than that of Bos taurus. Further, 8 putative targetable regions having sense strand properties of siRNAs were identified on FMDV genes that are highly dissimilar with the host genome. A total of 16 SNSs having > 90% identity with mature miRNAs were also identified that have targets in FMDV genes. The information generated from this study is populated at http://bioinformatics.iasri.res.in/fmdisc/ to cater the needs of biologists, veterinarians and animal scientists working on FMD.
Journal Article
Computational insights into RNAi-based therapeutics for foot and mouth disease of Bostaurus
by
Sahu, Tanmaya Kumar
,
Rao, Atmakuri Ramakrishna
,
Varghese, Cini
in
631/114/1314
,
631/326/421
,
Animals
2020
Foot-and-mouth disease (FMD) endangers a large number of livestock populations across the globe being a highly contagious viral infection in wild and domestic cloven-hoofed animals. It adversely affects the socioeconomic status of millions of households. Vaccination has been used to protect animals against FMD virus (FMDV) to some extent but the effectiveness of available vaccines has been decreased due to high genetic variability in the FMDV genome. Another key aspect that the current vaccines are not favored is they do not provide the ability to differentiate between infected and vaccinated animals. Thus, RNA interference (RNAi) being a potential strategy to control virus replication, has opened up a new avenue for controlling the viral transmission. Hence, an attempt has been made here to establish the role of RNAi in therapeutic developments for FMD by computationally identifying (i) microRNA (miRNA) targets in FMDV using target prediction algorithms, (ii) targetable genomic regions in FMDV based on their dissimilarity with the host genome and, (iii) plausible anti-FMDV miRNA-like simulated nucleotide sequences (SNSs). The results revealed 12 mature host miRNAs that have 284 targets in 98 distinct FMDV genomic sequences. Wet-lab validation for anti-FMDV properties of 8 host miRNAs was carried out and all were observed to confer variable magnitude of antiviral effect. In addition, 14 miRBase miRNAs were found with better target accessibility in FMDV than that of
Bos
taurus.
Further, 8 putative targetable regions having sense strand properties of siRNAs were identified on FMDV genes that are highly dissimilar with the host genome. A total of 16 SNSs having > 90% identity with mature miRNAs were also identified that have targets in FMDV genes. The information generated from this study is populated at
http://bioinformatics.iasri.res.in/fmdisc/
to cater the needs of biologists, veterinarians and animal scientists working on FMD.
Journal Article
Immunogenicity and protective efficacy of 3A truncated negative marker foot-and-mouth disease virus serotype A vaccine
by
Sehrish Karishma
,
Dhanesh, V V
,
Hosamani Madhusudan
in
Amino acids
,
Animal diseases
,
Animal populations
2020
Foot-and-mouth disease (FMD) is a highly contagious, economically significant disease of cloven-hoofed animals caused by FMD virus (FMDV) of the Picornaviridae family. Vaccination of susceptible animals with inactivated virus vaccine is the standard practice for disease control. The prophylactic use of the inactivated vaccines has reduced the disease burden in many countries endemic to FMD. In the process of implementation of the mass vaccination program and disease eradication, it is essential to differentiate infected from vaccinated animals (DIVA) where a large proportion of the animal population is vaccinated, and disease-free zones are being established, to help in sero-surveillance of the disease. In such a scenario, the use of a negative marker vaccine is beneficial to rule out false-positive results in a disease-free zone. Here we report the construction and rescue of an infectious cDNA clone for FMDV serotype A Indian vaccine strain lacking 58 amino acid residues (87-144 amino acid position) in the carboxy-terminal region of the viral 3A protein. The recombinant deletion mutant virus showed similarity in the antigenic relationship with the parental strain. Immunization of guinea pigs with the inactivated vaccine formulated using the deletion mutant virus induced potent immune response with 100% protective efficacy upon challenge with homologous virus. Further, we show that sera from the guinea pigs infected with the deletion mutant virus did not show reactivity in an indirect ELISA test targeting the deleted portion of 3A protein. We conclude that the recombinant deletion mutant virus vaccine along with the newly developed companion indirect ELISA targeting portion of FMDV 3A protein could be useful in the implementation of a precise DIVA policy in our country when we reach FMD free status with vaccination.
Journal Article
Hematological and serum biochemical profile in cattle experimentally infected with foot-and-mouth disease virus
by
Hosamani, M.
,
Sanyal, Aniket
,
Basagoudanavar, S. H.
in
Analysis
,
biochemical profile
,
Biochemistry
2020
Background and Aim: Foot-and-mouth disease (FMD) is an acute viral infection affecting cloven-hoofed animals causing vesicular erosions in the oral cavity and interdigital space. The present study was undertaken to ascertain the time-dependent changes in clinical, hematological, and biochemical profiles in different breeds of cattle following experimental infection. Materials and Methods: The animals were inoculated with 1.0×104 50% bovine tongue infectious dose (BTID50) by intradermolingual route. Clinical signs were observed, and blood/serum samples were collected at different time intervals. Results: The white blood cell count declined sharply on days 7-13 and recovered on day 14 post-FMD infection. Biochemical analysis of serum markers for vital organ profile revealed no marked damage. However, a significant increase in blood urea nitrogen (BUN) value indicated pre-renal azotemia. Transient hyperthyroidism was indicated by the rise in T3 and T4 that can be correlated with a decrease in triglyceride and total cholesterol levels. In the cardiac damage assessment study, a distinct breed difference was observed wherein Malnad Gidda calves showed no cardiac damage. Conclusion: Except thyroid profile, BUN, and creatine kinase-myocardial band, all other serum biochemical parameters showed no significant abnormalities, whereas lymphopenia is the only hematological change and it is suggested that effective ameliorative measures should be targeted mainly on the feed/water intake, thyroid gland, and the level of lymphocytes.
Journal Article