Oveas Raffiq Parray scite author profile

Contagious caprine pleuropneumonia (CCPP) is a serious disease of goats, occasionally sheep and wild ruminants, caused by Mycoplasma capricolum subspecies capripneumoniae (Mccp). The disease is characterized by severe serofibrinous pleuropneumonia, very high morbidity ($100%), and mortality (80-100%). CCPP affects goats in more than 40 countries of the world thereby posing a serious threat to goat farming around the globe. The characteristic clinical signs of CCPP are severe respiratory distress associated with sero-mucoid nasal discharge, coughing, dyspnea, pyrexia, pleurodynia, and general malaise. In later stages, severe lobar fibrinous pleuropneumonia, profuse fluid accumulation in pleural cavity, severe congestion of lungs and adhesion formation is observed. Mycoplasmal antigen interactions with host immune system and its role in CCPP pathogenesis are not clearly understood. CCPP is not a zoonotic disease. Diagnosis has overcome cumbersome and lengthy conventional tests involving culture, isolation, and identification by advanced serological (LAT, cELISA) or gene-based amplification of DNA (PCR, RFLP, and hybridization) and sequencing. The latex agglutination test (LAT) is rapid, simple, and better test for field and real-time diagnosis applicable to whole blood or serum and is more sensitive than the CFT and easier than the cELISA. Moreover, the studies on antibiotic sensitivity and exploration of novel antibiotics (fluoroquinolones, macrolides) can help in better therapeutic management besides preventing menace of antibiotic resistance. Re-visiting conventional prophylactic measures focussing on developing novel strain-based or recombinant vaccines using specific antigens (capsular or cellular) should be the most important strategy for controlling the disease worldwide.

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Novel Candidates for Vaccine Development Against Mycoplasma Capricolum Subspecies Capripneumoniae (Mccp)—Current Knowledge and Future Prospects

Yatoo

Parray

Muheet

et al. 2019

Vaccines

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Exploration of novel candidates for vaccine development against Mycoplasma capricolum subspecies capripneumoniae (Mccp), the causative agent of contagious caprine pleuropneumonia (CCPP), has recently gained immense importance due to both the increased number of outbreaks and the alarming risk of transboundary spread of disease. Treatment by antibiotics as the only therapeutic strategy is not a viable option due to pathogen persistence, economic issues, and concerns of antibiotic resistance. Therefore, prophylactics or vaccines are becoming important under the current scenario. For quite some time inactivated, killed, or attenuated vaccines proved to be beneficial and provided good immunity up to a year. However, their adverse effects and requirement for larger doses led to the need for production of large quantities of Mccp. This is challenging because the required culture medium is costly and Mycoplasma growth is fastidious and slow. Furthermore, quality control is always an issue with such vaccines. Currently, novel candidate antigens including capsular polysaccharides (CPS), proteins, enzymes, and genes are being evaluated for potential use as vaccines. These have shown potential immunogenicity with promising results in eliciting protective immune responses. Being easy to produce, specific, effective and free from side effects, these novel vaccine candidates can revolutionize vaccination against CCPP. Use of novel proteomic approaches, including sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), two-dimensional gel electrophoresis, immunoblotting, matrix-assisted laser desorption/ionization-time-of-flight (MALDI-TOF) mass spectrometry, tandem mass spectroscopy, fast protein liquid chromatography (FPLC), bioinformatics, computerized simulation and genomic approaches, including multilocus sequence analysis, next-generation sequencing, basic local alignment search tool (BLAST), gene expression, and recombinant expression, will further enable recognition of ideal antigenic proteins and virulence genes with vaccination potential.

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Comparative evaluation of different therapeutic protocols for contagious caprine pleuropneumonia in Himalayan Pashmina goats

Yatoo

Parray

Bhat

et al. 2019

Trop Anim Health Prod

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Emerging Antibiotic Resistance in Mycoplasma Microorganisms, Designing Effective and Novel Drugs / Therapeutic Targets: Current Knowledge and Futuristic Prospects

Yatoo¹,

Parray²,

Bhat³

et al. 2019

J Pure Appl Microbiol

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Emerging antibiotic resistance among mycoplasma microorganisms is of major concern in present times as they cause various diseases in both animals and humans. Mycoplasmoses, infections caused by mycoplasma microorganisms have become common in recent past and have gained importance both due to inability to diagnose and difficulty to treat. Respiratory tract infection, mastitis, arthritis, and septicemia caused by Mycoplasma in livestock are responsible for causing heavy economic losses. These diseases are frequently reported from countries of Africa and Asia, including India. Antimycoplasma antibiotics are frequently being used as therapeutic agents for the treatment of mycoplasmoses infection in livestock. They include macrolides, tetracyclines, fluoroquinolones, and aminoglycosides which are the main antibiotic classes commonly used against mycoplasma globally. Oxytetracyclines are the commonest antibiotics used for decades followed by enrofloxacin, tylosin, and streptomycin. Danofloxacin, lincomycin, spiramycin, erythromycin, gamithromycin, azithromycin, clarithromycin, gentamicin, doxycycline, and tulathromycin are also used occasionally. Continuous and unregulated use of these antibiotics over prolonged period can lead to menace of antibiotic resistance which is aided by inappropriate doses and uncontrolled use. Resistance to some antibiotics is already emerging. Mycoplasmas have devised different resistance mechanisms for combating antimicrobial action of these drugs. Common mechanisms noted are acquisitions of proteins affecting ribosomal subunits, inhibition of antibiotic efflux, structural changes in the ribosomal subunit, target mutations, expression or production of enzymes. Additional novel mechanisms of resistance still need to be investigated. Strategies for prevention and encountering of this antibiotic resistance are being devised by alternating antibiotics in application, using antimycoplasma antibiotic sensitivity tests, along with evaluation of specific doses and exploration of novel mycoplasma specific class of antibiotics. Novel targets based on various cell structures including cell membrane, organelles, proteins, enzymes or metabolites are being explored for antimycoplasma therapy. These all will help in effective therapeutic management of mycoplasmoses with minimal side effects.

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A study on biological rhythms of Himalayan yaks

Yatoo

Shabir

Kubrevi

et al. 2019

Biological Rhythm Research

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