Sanjay Kumar

Isolation and genetic characterization of Japanese encephalitis virus from equines in India

Japanese encephalitis (JE) is an important vector-borne viral disease of humans and horses in Asia. JE outbreaks occur regularly amongst humans in certain parts of India and sporadic cases occur among horses. In this study, JE seroprevalence and evidence of JE virus (JEV) infection among horses in Haryana (India) is described. Antibodies against JEV were detected in 67 out of 637 (10.5%) horses screened between 2006 and 2010. Two foals exhibiting neurological signs were positive for JEV RNA by RT-PCR; JEV was isolated from the serum of one of the foals collected on the second day of illness. This is the first report of JEV isolation from a horse in India. Furthermore, a pool of mosquitoes collected from the premises housing these foals was positive for JEV RNA by RT-PCR. Three structural genes, capsid (C), premembrane (prM), and envelope (E) of the isolated virus (JE/eq/India/H225/2009) spanning 2,500 nucleotides (from 134 to 2,633) were cloned and sequenced. BLAST results showed that these genes had a greater than 97% nucleotide sequence identity with different human JEV isolates from India. Phylogenetic analysis based on E- and C/prM genes indicated that the equine JEV isolate belonged to genotype III and was closely related to the Vellore group of JEV isolates from India.

Identification and characterization of cysteine proteinases of Trypanosoma evansi

Trypanosoma evansi is a causative agent of ‘surra’, a common haemoprotozoan disease of livestock in India causing high morbidity and mortality in disease endemic areas. The proteinases released by live and dead trypanosomes entail immunosuppression in the infected host, which immensely contribute in disease pathogenesis. Cysteine proteinases are identified in the infectious cycle of trypanosomes such as cruzain from Trypanosoma cruzi, rhodesain or brucipain from Trypanosoma brucei rhodesiense and congopain from Trypanosoma congelense. These enzymes localised in lysosome-like organelles, flagellar pocket and on cell surface, which play a critical role in the life cycle of protozoan parasites, viz. in host invasion, nutrition and alteration of the host immune response. The paper describes the identification of cysteine proteinases of T. evansi lysate, activity profile at different pH optima and inhibition pattern using a specific inhibitor, besides the polypeptide profile of an antigen. Eight proteinases of T. evansi were identified in the molecular weight (MW) ranges of 28–170xa0kDa using gelatin substrate-polyacrylamide gel electrophoresis (GS-PAGE), and of these proteinases, six were cysteine proteinases, as they were inhibited by L-3-carboxy-2,3-transepoxypropionyl-lecuylamido (4-guanidino)-butane (E-64), a specific inhibitor. These proteolytic enzymes were most reactive in acidic pH between 3.0 and 5.5 in the presence of dithiothreitol and completely inactive at alkaline pHxa010.0. Similarly, the GS-PAGE profile of the serum samples of rats infected with T. evansi revealed strong proteolytic activity only at the 28-kDa zone at pHxa05.5, while no proteolytic activity was observed in serum samples of uninfected rats. Further, the other zones of clearance, which were evident in T. evansi antigen zymogram, could not be observed in the serum samples of rats infected with T. evansi. The polypeptide pattern of the whole cell lysate antigen revealed 12–15 polypeptide bands ranging from 28 to 81xa0kDa along with five predominant polypeptides bands (MW of 81, 66, 62, 55 and 45xa0kDa), which were immunoreactive with hyperimmune serum (HIS) and serum of experimentally infected rabbits with T. evansi infection. The immunoblot recognised antibodies in experimentally infected rabbits and against HIS as well, corresponding to the zone of clearances at lower MW ranges (28–41xa0kDa), which may be attributed to the potential of these proteinases in the diagnosis of T. evansi infection. Since these thiol-dependent enzymes are most active in acidic pH and considering their inhibition characteristics, these data suggest that they resemble to the mammalian lysosomal cathepsin B and L.

Multiplex PCR for detection of Trypanosoma evansi and Theileria equi in equids of Punjab, India

Multiplex PCR for simultaneous detection of Trypanosoma evansi and Theileria equi in single-step reaction was optimized and employed on 108 equids (99 horses and 9 donkeys/mules) blood samples collected from two agro-climatic zones (Sub-mountain undulating zone and Undulating plain zone) of Punjab to evaluate the status of concurrent infection and associated risk factors. The amplification products of 257 and 709 bp targeting repetitive nucleotide sequence of variable surface glycoproteins of T. evansi and 18S rRNA gene of T. equi, respectively expressed high fidelity of the primer pairs with sequence homology to neighboring geographic isolates. The overall prevalence of T. evansi and T. equi was 3.7 and 1.85%, with Undulating plain zone at higher infection risk for T. equi (OR=3.24, 95% CI=0.28-83.65); and Sub-mountain undulating zone (OR=∞, 95% CI=0.25-∞) for T. evansi. Multiplex PCR revealed higher risk of infection of both T. equi (OR=6.75, 95% CI=0.58-175.38) and T. evansi (OR=2.11, 95% CI=0.05-80.36) in the farms with inappropriate management system. The risk factor associated with the type of host species had an odds ratio of 12.35 (95% CI=0.29-508.37) for donkeys/mules versus horses for T. evansi infection. This group was also at higher risk of infection with Odds ratio (OR) of 4 (95% CI=0.14-53.99) for T. equi. The current investigation brings out various commodities at risk of infection pertaining to equid trypanosomosis and theileriosis evaluated by a rapid and sensitive multiplex PCR assay.

Development of EMA-2 recombinant antigen based enzyme-linked immunosorbent assay for seroprevalence studies of Theileria equi infection in Indian equine population

Equine piroplasmosis is a tick-transmitted protozoan disease caused by Theileria equi and/or Babesia caballi. In the present study, we expressed a 53kDa protein from the truncated EMA-2 gene of T. equi (Indian strain) and developed EMA-2ELISA using this expressed protein. This ELISA is able to detect T. equi-specific antibodies in experimentally infected animals as early as 9 days post-infection. The assay developed was validated with the OIE recommended competitive ELISA (cELISA) on 120 serum samples and significant agreement (kappa=0.93) was observed between results of both the ELISAs which indicates suitability of EMA-2ELISA for use in sero-diagnosis. Diagnostic sensitivity and specificity of EMA-2ELISA - as compared with cELISA - were 0.97 and 0.96, respectively. Analysis of 5651 equine serum samples - collected during 2007-2012 from 12 states of India representing eight agro-climatic zones - by EMA-2ELISA revealed 32.65% seroprevalence of T. equi in India. In conclusion, the EMA-2ELISA developed using the T. equi EMA-2 recombinant protein as antigen for detecting T. equi-specific antibodies has good diagnostic potential for sero-epidemiological surveys.

Spatial distribution, risk factors and haemato-biochemical alterations associated with Theileria equi infected equids of Punjab (India) diagnosed by indirect ELISA and nested PCR.

Equine piroplasmosis is a febrile, tick-borne disease of equids predominately caused by obligatory intra-erythrocytic protozoa Theileria equi in the Indian sub-continent. A cross-sectional study was carried out on 464 equids (426 horses and 38 donkeys/mules) in Punjab, India to assess the level of exposure to equine piroplasmosis by 18S rRNA gene nested polymerase chain reaction (nPCR) and equine merozoite antigen-2 (EMA2) indirect-ELISA (enzyme linked immunosorbent assay), to investigate risk factors and haemato-biochemical alterations associated with the infection. The endemicity of the disease was confirmed by positive PCR amplification in 21.77% and positive antibody titers in 49.78% equid samples. There was a fair agreement between these two diagnostic techniques (Kappa coefficient=0.326). The spatial distribution analysis revealed an increasing trend of T. equi prevalence from north-eastern to south-western region of Punjab by both the techniques correspondingly, which proffered a direct relation with temperature and inverse with humidity variables. The relatively prominent risk factor associated with sero-positivity was the presence of other domestic animals in the herd, while the propensity of finding a positive PCR amplification was higher in donkeys/mules, animal kept at unorganised farm or those used for commercial purposes as compared to their counterparts. There was a significant increase in globulins, gamma glutamyl-transferase, total bilirubin, direct bilirubin, indirect bilirubin, glucose levels and decrease in total erythrocyte count, haemoglobin, packed cell volume by animals, which were revealed positive by nPCR (may or may not positive by indirect-ELISA) and increase in creatinine, total bilirubin, direct bilirubin, glucose and decrease in total erythrocytes count by animals, which were revealed positive by indirect-ELISA (alone). To our knowledge, this study, for the first time, brings out a comprehensive report on the status on spatial distribution of T. equi in Punjab (India) state, thoroughly investigated by molecular and serological techniques, evaluating various environmental and demographic risk factors along with the haemato-biochemical alterations in the exposed animals.

Molecular characterization of internal transcribed spacer 1 (ITS 1) region of different Trypanosoma evansi isolates of India

Six Trypanosoma evansi isolates collected from ponies (PH1 and PK6), camel (CB2), donkeys (DJ3 and DH4) and cattle (CK5) from Haryana, Rajasthan, Uttar Pradesh and Gujarat states of India were used for molecular characterization of internal transcribed spacer 1 (ITS 1). The DNA was isolated from purified trypanosomes of these six isolates after propagation in mice model. ITS1-PCR of purified parasite DNA yielded an amplification product approximately 540xa0bp in size. Nucleotide sequence of ITS1 gene of CB2 isolate had 530xa0bp while CK5, DH4, DJ3, and PH1 isolates had 532xa0bp, whereas, PK6 isolates had 533xa0bp size. Blast data of the Indian isolates revealed 99xa0% homology with other available sequences of T. evansi. Multiple alignment of nucleotide sequence of ITS1 gene variants from Indian T. evansi isolates with selected homologous sequences from GenBank revealed that nucleotide substitution mostly occurred at the position of 101–103, 218–223, 243–244, 301–396 and 470–480. The isolates PH1, CK5, DH4 and DJ3 were found more associated with T. evansi isolates from the Philippines, Thailand, Iran, Egypt and China, whereas, PK6 and CB2 isolates were related to each other and were phylogenetically distant from rest of the Indian isolates used in this study. Based on the ITS1 rDNA sequence, the Neighbour–Joining consensus tree indicated clear evidence of existence of genetic diversity among T. evansi isolates from India.

Comparative efficacy of different in vitro cultivation media for Trypanosoma evansi isolated from different mammalian hosts inhabiting different geographical areas of India

The present study was undertaken to establish an optimal medium for primary culture initiation and maintenance of T. evansi isolated from different mammalian hosts of diverse geographical regions of India viz. donkey/1 (Hardoi, Uttar Pradesh), donkey/2 (Junagarh, Gujarat), pony/1 (Hisar, Haryana), camel/1 (Bikaner, Rajasthan) which represented isolates 1, 2, 3 and 4, respectively. Primary cultures were initiated with all four isolates in five different in vitro cultivation media with seeding density of 1xa0×xa0106 trypanosomes/ml. The parasites of all four isolates could remain viable only for 48xa0h in medium E (Alsever’s solution) and for 72xa0h in medium A, C and D. Parasites reached to a maximum density (2.5–3.75xa0×xa0106/ml) within 24xa0h and thereafter, a sharp decline (0.5–0.75xa0×xa0106/ml) in the next 72xa0h was observed in 1, 2 and 3 isolates cultured in medium B. In isolate 4, parasite counts got more than doubled in 24xa0h and then decreased gradually up to sixth day post initiation of cultivation which thereafter increased gradually up to 34xa0days and a constant parasite number of 105/ml could be achieved for 90xa0days in medium B. During this prolonged culture the trypanosomes retained their long slender morphology and infectivity to mice.

Mitochondrial DNA- a Tool for Phylogenetic and Biodiversity Search in Equines

It is imperative to assess the maternal lineage in order to achieve a broad picture of evolution, phylogenetic and genetic biodiversity within and among different breeds of livestock. In recent past, there has been a considerable advancement in sequencing of complete mammalian mtDNA molecules and their analysis. Most of the studies have focused on the mitochondrial D-loop region, the most variable part of mtDNA due to increased substitution rate than in the rest of the mtDNA genome which serves as a better genetic marker to assess the diversity. Mitochondrial DNA (mtDNA) possesses several favorable characteristics, including large quantity in the cell, small genome size, haploid, maternal inheritance with extremely low probability of paternal leakage, higher mutation rate than nuclear DNA, and amenable to change mainly through mutation rather than recombination. All these features make mtDNA a useful and one of the most frequently used markers in molecular systematic and has been widely employed to address questions of genetic diversity, population structure and population evolution of animals including equines. Many native breeds of horses as well as ponies were assessed for their genetic diversity and ancestry on the basis of studies on mitochondrial DNA to address the questions of evolution along with breed development and conservation.

Molecular characterization, modeling, in silico analysis of equine pituitary gonadotropin alpha subunit and docking interaction studies with ganirelix

Equine pituitary gonadotropins (eLH, eFSH, eCG) are heterodimeric glycoprotein hormones with alpha (α) and beta (β) subunits. It is responsible for maintenance of pregnancy in mares during early gestation and fairly valuable for inducing superovulation in animals other than equines. The alpha subunit is common, while beta subunit is species-specific in all glycoprotein hormones. In the present investigation, molecular cloning and in silico characterization including homology modeling and molecular docking analysis of the equine chorionic gonadotropin (eCG) alpha subunit was carried out for gaining structural and functional insights into the eCG alpha subunit and its possible interaction with ganirelix, a gonadotropin-releasing hormone (GnRH) antagonist. The equine chorionic gonadotropin (eCG) alpha subunit expressed in pituitary gland was selected, amplified from total RNA, cloned and sequenced. The in silico analyses were made for homology modelling, structural details, epitope identification and chromosomal localization. Molecular docking studies of eCG alpha were undertaken with a drug ganirelix which is used to control ovulation and has antagonistic activity against GnRH. The protein sequence corresponding to selected open reading frame (ORF) was 99–100% similar with domesticated horse, Przewalski’s horse, and 92–93% with Burchell’s zebra and donkey. Molecular docking studies revealed the possible interaction of eCG alpha with ganirelix. The possible drug-macromolecule interactions were visualized between eCG alpha and ganirelix. The study will provide structural insight into unique sites and an alternate route of gonadotropin suppression applicable to assisted reproductive technologies.

Biochemical profiles of Indian donkey population located in six different agro-climatic zones

To establish normal values of blood biochemical indices for different indigenous local donkey population available in various agro-climatic zones, blood samples were collected from 233 adult and apparently healthy donkeys. The samples were analysed for metabolites (albumin, total serum protein, direct bilirubin, total bilirubin, cholesterol, HDL cholesterol, urea, uric acid, triglyceride, creatinine) and minerals (calcium, phosphorus) to evaluate significant difference within and between populations. Confidence limit of each biochemical indices showed a close range as compared to their actual range observed under varied geographic areas. All the metabolites and minerals showed significant variations in their levels within and between donkey populations which could possibly be due to the differences in the nutritional status of donkeys, their managemental aspects and biochemical metabolism. In agro-climatic zone 1 (Spiti and Leh areas), having low vegetation cover with poor nutritious grasses for a limited period, levels of most of the biochemical profiles in donkey populations belonging to these areas were significantly lower than those in other zones (VI, IX, XII, XIV). This study indicated that normal biochemical values of different indices for a particular population should not be used as such for disease prognosis, diagnosis and therapeutic monitoring of other donkey population belonging to other agro-climatic zone having different nutritional and managemental practices.