Isolation and Molecular Characterization of Mycoplasma mycoides Subspecie mycoides in 3 Agro Ecological Zones of Nasarawa State, Nigeria

Contagious bovine pleuropneumonia is a disease caused by Mycoplasma mycoides subspecie mycoides, a transboundary animal disease causing serious devastation to cattle producers in Africa. The study was designed to identify and characterize the pathogenic member of mycoplasma cluster the Mycoplasma mycoides subspecie mycoides (Mmm) isolated from cattle infected with the disease. Three hundred (300) samples of nasal swabs and pleural fluid from cattle showing signs of CBPP were analyzed using culture and biochemical identification techniques and polymerase chain reaction (PCR) using specific primers to determine the prevalence of contagious bovine pleuropneumonia in Nasarawa State, Nigeria. Isolation recorded a prevalence of 4% and PCR recorded a prevalence of 67.7%. Isolates subjected to PCR analysis produced an amplicon size of 548 bp and 1.1 k bp respectively for the Mycoplasma mycoides cluster and Mycoplasma mycoides subspecie mycoides. Sequencing of the 16 S rRNA gene blast search revealed 96% to 99% sequence homology of Mycoplasma mycoides subspecie mycoides compared with 14 available sequences in the gen bank at NCBI. Based on this investigation mass vaccination of cattle is recommended, isolation and PCR techniques could be used as diagnostic tools for CBPP disease in three agro ecological zones of Nasarawa state, Nigeria.


Introduction
Contagious bovine pleuropneumonia is among the transboundary animal diseases classified under OIE list A. The disease is caused by Mycoplasma mycoides subspecie mycoides, the disease is manifested by respiratory disorders; dyspnea, polypnoea, pyrexia, anorexia, nasal discharges, extension of the neck and coughing when animal is forced to move [1] [2].
CBPP has low morbidity and mortality in Europe compared to Africa with high percentage of infected animals due to chronic carriers [3]. The disease is endemic in Nigeria causing serious devastation to the economy [4]- [12]. The nomadic culture of Nigerian herdsmen due to their transhumance activities has significantly contributed to the spread of disease in Nigeria [13].
There has been a substantial re-emergence of the disease despite vaccination campaigns using freezed dried broth cultures of live attenuated Mycoplasma mycoides subspecie mycoides strain T1/44 [14]. Cultural identification of Mycoplasma species can be difficult due to the fastidious nature of the pathogens. However, identification of the Mycoplasma mycoides species by molecular techniques is very efficient, specific and rapid. Therefore Polymerase Chain Reaction and sequencing is the most accurate tool for the identification and confirmation of different mycoplasma species [4] [15]. The technique is capable of confirming the exact specie of microorganism even in mixed infection and directly from clinical samples like nasal swab, lung tissue and pleural fluids [16].
The 16 S rRNA gene codes for variable region of Mycoplasma mycoides subspecie mycoides with both gene and species specific primers, which can be used in the identification of particular species of Mycoplasma cluster [17] [18] [19] [20].
This study is carried out to isolate, identify and characterize Mycoplasma mycoides subspecie mycoides in 3 zones of Nasarawa state, Nigeria ( Figure 1). This will eventually lead to proper design of control measures of the disease in Nasarawa state.

Sampling
A total of 300 samples consisting of 150 nasal swabs and 150 pleural fluids were collected from cattle manifesting signs of respiratory disorder suspected for CBPP in cattle markets and abattoir in Nasarawa state, Nigeria. The samples were taken by sterile swab sticks and transferred to 2 ml of Pleuro pneumonia Open Journal of Veterinary Medicine Research Institute Vom for analysis or preserved at −20˚C before analysis.

Isolation and Identification
The samples were taken aseptically by sterile swab stick and transferred to Pleuro pneumonia-like organism (PPLO) broth. All the collected samples were incubated in an anaerobic incubator (Memmert® Germany) with 5% CO 2 at 37 • C for 48 hours before sub culturing onto Pleuro pneumonia-like organism (PPLO) agar followed by incubation at 37 • C anaerobically for 3 to 10 days. The cultured plates were viewed using the stereomicroscope (h33 hund wetzlar®) for the appearance of nipple-like or fried egg typical mycoplasma colonies. To obtain pure culture the positive colonies were cultured three times according to standard protocol of [21].

Biochemical Assay
Biochemical assay of the 12 local isolates was carried out for the identification of mycoplasma species according to standard protocol of [22]. A volume of 200 ul from each isolate was diluted in 2.5 ml of mycoplasma broth and subjected to different biochemical tests like glucose fermentation, serum digestion, tetrazolium salt reduction, casein digestion, and arginine hydrolysis test for the identification of mycoplasma species.

Polymerase Chain Reaction
The biochemical identified samples of the species of mycoplasma were subjected to DNA extraction for confirmation through PCR. The polymerase chain reaction was performed for the detection of Mycoplasma mycoides subspecie mycoides by using two set of primers IS1296F (CTAAAGAGCTTGGAGTTCAGTG) and CA (F) (CGA AAG CGG CTT ACT GGC TTG TT); the Mycoplasma mycoides subspecie mycoides and the Mycoplasma mycoides cluster primer. This was carried out according to the method described by [23]. All reactions were carried out in a final volume of 25 µl, and contained 6.5 µl molecular grade nuclease-free water, 12

Homology and Phylogenetic Analysis
The gel product of specific amplicon size was taken and submitted for sequencing. The obtained sequence was subjected to NCBI BLAST to screen for homologous sequence for phylogenetics relationship of the local isolates of Mycoplasma mycoides subspecie mycoides with available sequences in the Gen Bank.
Sequences of the isolates were downloaded from NCBI and then multiple aligned by using Bio Edit version 7.05.2 [24]. Furthermore, phylogenetic tree topology was constructed for the obtained sequences using software MEGA version 7.1 for evolutionary study and to build a correlation with other strains of different regions ( Figure 4).

Statistical Analysis
Data obtained were subjected to statistical analysis using Chi-square of Open Epi (Version 3.02a) software to check level of significance between different samples.  Table 1.
The positive culture of Mycoplasma species was sub cultured on Pleuro pne-     Reaction confirmed local isolates were processed for sequencing and the sequence of the PCR products obtained through specie specific primers shared maximum sequence homology of 96% to 99% of 16 S rRNA gene of Mycoplasma mycoides subspecie mycoides with other strains in the gen bank. The phylogenetic tree was constructed by using software version 7.0.5.2 and compared with 14 available sequences in NCBI gen data bank. The constructed tree indicated that local isolates from the three agro ecological zones of Nasarawa state, Nigeria, were similar to the sequences in gen bank by 99%, but differ from the T1/44 vaccine with 42% similarity (Figure 4).

Discussion
The isolation, biochemical and molecular characterization of mycoplasma iso-  [26]. The presence of Mycoplasma mycoides subspecie mycoides and other members of the cluster were investigated successfully with isolation from the nasal swabs and pleural fluid. However, there was low isolation rate (4%) probably due to use of antimicrobials by herders for prophylactics or contaminants by other bacterial pathogens as reported previously [25] [27] [28].
Optimal growth of Mycoplasma micro colonies were observed on the pleuropneumonia like agar media after 72 hours of incubation at 37˚C from the nasal swabs (91.6%), compared to pleural fluid (8.3%) using cultural technique in this investigation. This is in agreement with previous reports, in which there was numerous isolation of Mycoplasma species from nasal swabs [29] [30] [31] [32].
Culturing and enrichment technique was demonstrated in this study. This was also compared with direct PCR. The direct PCR was highly sensitive and specific producing higher positive results. Biochemical characterization of the 12 Mycoplasma isolates indicated that 7 (58.3%) fermented glucose, reduced tetrazolium chloride and hydrolyzed casein ( Table 2). They did not hydrolyse arginine nor urea and neither did they produce phosphatase and film and spots, and were presumptively identified as members of the Mycoplasma mycoides sub-cluster which consists of Mycoplasma mycoides subspecies mycoides (Mmm) and Mycoplasma mycoides subspecies capri (Mmc). The two Mycoplasma subspecies share these biochemical properties even though Mycoplasma mycoides subspecies capri is a pathogen mostly of small ruminants [22]. Within the other 5 Mycoplasma isolates, three (25%) isolates reacted to arginine hydrolysis and show phosphatase activity but did not reduce tetrazolium chloride, did not hydrolyze casein and urea nor fermented glucose and did not produce film and spots and were presumptively identified as M. alkalescens. While two (16.6%) isolates only reduced tetrazolium chloride and produced phosphatase and film and spots and was presumptively identified as M. bovis. Ureaplasma and other urea-utilizing Mycoplasma species were screened out, as none of the Mycoplasma isolates hydrolyzed urea.
The Mycoplasma isolates found in this study were isolated from the nasal swab and pleural fluid. This could be explained due to the fact that the main predilection site for Mycoplasma mycoides subspecie mycoides is the respiratory tract where it causes pathological lesions in the lungs with production of yellowish straw colored pleural fluid in chronic cases. This environment of the respiratory tract is rich in the Mycoplasma mycoides subspecie mycoides organism which might spread throughout the lower respiratory tract to the upper respiratory tract where it can be also isolated from the nostrils through nasal swabs. This is in agreement with previous reports [5] [11] [31].
The Polymerase Chain Reaction amplification specific for Mycoplasma mycoides subspecie mycoides was found to be positive for seven isolates and the positive control T1/44 vaccine strain with a molecular size of 1.1 k bp and 548 bp specific for Mmm and Mmc. The identification of Mycoplasma mycoides subspecie mycoides and Mycoplasma mycoides cluster at molecular size of 1.1 k bp and 548 bp respectively is in agreement with other findings [4] [5] [25] [33] [34].
Also in this study, the 16S rRNA gene of the Mycoplasma mycoides subspecie mycoides gene of local isolates in Nasarawa state was 96% to 99% similar to sequences obtained worldwide in NCBI Gen Bank and 42% similar to CBPP vaccine strain T1/44. It is concluded that Mycoplasma mycoides subspecie mycoides is endemic in three zones of Nasarawa state. The isolated specie of Mmm has close homology with strains of Mmm in the Gen Bank, but with evolutionary distance with the vaccine strain T1/44. Therefore the successful isolation and characterization of local isolates of Mmm will provide an opportunity for the development of an indigenous multivalent vaccine for the control of CBPP in Nasarawa state, Nigeria.