Browsing by Author "Osasona, O. G."

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    Faecal antibiotic resistome of Nigerian chimpanzees from a wildlife sanctuary in Cross-River State, Nigeria
    (Faecal antibiotic resistome of Nigerian chimpanzees from a wildlife sanctuary in Cross-River State, Nigeria, 2021-06) George, U. E.; Arowolo, O. A.; Olayinka, O. A.; Ifeorah, I. M.; Faleye, T. O. C.; Oluremi, B.; Oragwa, A. O.; Omoruyi, E. C.; Udoh, E. E.; Osasona, O. G.; Donbraye, E.; Adeniji, O. P.; Adewumi, O. M.; Adeniji, J. A.
    Out of prescription, indiscriminate use, misuse and abuse of antibiotic administration and/or usage in both humans and farm animals have led to a consistent interference and contamination of biomes and ecobiomes. These resultantly give platforms for positive selection of resistant pathogens and high levels of Antibiotic Resistance Genes (ARGs). We examined Nigerian Chimpanzees in Boki Afi Mountain Wildlife Sanctuary, Cross-River State, Nigeria, to detect ARGs. Faecal samples from 15 Chimpanzees in pristine enclosures of Non-Human Primates in the Wildlife Sanctuary were analyzed. All faecal samples were pooled, then resuspended in phosphate-buffered saline. Subsequently, nucleic acid was extracted from the suspension and Illumina sequencing performed. ARGs in the raw reads were determined and assembled using the KmerResistance tool v2.2. From the 2,763,954 reads generated, 14 ARGs with statistically significant reads were identified. Precisely, 90.5% (12/14) of the ARGs detected target drugs that inhibit translation, of which 66.6% (8/12) were tetracycline resistance (TC-r) genes, while remaining 9.5% (2/14) inhibit cell wall synthesis (cfxA3_1 and cfxA6_1). Eight (aph(3’)-III_1, cfxA3_1, cfxA6_1, erm(B)_10, tet(Q)_1, tet(Q)_2, tet(Q)_4, tet(W)_5) of the ARGs detected were predicted to be plasmid-borne. We report using a cultivation-independent approach the presence of ARGs in Nigerian Chimpanzees. Findings suggest Nigerian Chimpanzees may constitute a hitherto overlooked source of antibiotic resistance in the environment. These ARGs may have been exchanged with handlers and rural dwellers around the Sanctuary. Surveillance of sympatric human faecal and environmental microbiota and their resistomes at the Wildlife Sanctuary are merited to inform public health interventions and decrease ARGs dissemination.
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    Faecal antibiotic resistome of Nigerian chimpanzees from a wildlife sanctuary in cross-river state, Nigeria
    (Nexus Academic Publishers (NAP), 2021) George, U. E.; Arowolo, O. A.; Olayinka, O. A.; Ifeorah, I. M.; Faleye, T. O. C.; Oluremi, B.; Oragwa, A.O.; Omoruyi, E. C.; Udoh, E. E.; Osasona, O. G.; Donbraye, E.; Adeniji, O. P.; Adewumi, O. M.; Adeniji, J. A.
    "Out of prescription, indiscriminate use, misuse and abuse of antibiotic administration and/or usage in both humans and farm animals have led to a consistent interference and contamination of biomes and ecobiomes. These resultantly give platforms for positive selection of resistant pathogens and high levels of Antibiotic Resistance Genes (ARGs). We examined Nigerian Chimpanzees in Boki Afi Mountain Wildlife Sanctuary, Cross-River State, Nigeria, to detect ARGs. Faecal samples from 15 Chimpanzees in pristine enclosures of Non-Human Primates in the Wildlife Sanctuary were analyzed. All faecal samples were pooled, then resuspended in phosphate-buffered saline. Subsequently, nucleic acid was extracted from the suspension and Illumina sequencing performed. ARGs in the raw reads were determined and assembled using the KmerResistance tool v2.2. From the 2,763,954 reads generated, 14 ARGs with statistically significant reads were identified. Precisely, 90.5% (12/14) of the ARGs detected target drugs that inhibit translation, of which 66.6% (8/12) were tetracycline resistance (TC-r) genes, while remaining 9.5% (2/14) inhibit cell wall synthesis (cfxA3_1 and cfxA6_1). Eight (aph(3’)-III_1, cfxA3_1, cfxA6_1, erm(B)_10, tet(Q)_1, tet(Q)_2, tet(Q)_4, tet(W)_5) of the ARGs detected were predicted to be plasmid-borne. We report using a cultivation-independent approach the presence of ARGs in Nigerian Chimpanzees. Findings suggest Nigerian Chimpanzees may constitute a hitherto overlooked source of antibiotic resistance in the environment. These ARGs may have been exchanged with handlers and rural dwellers around the Sanctuary. Surveillance of sympatric human faecal and environmental microbiota and their resistomes at the Wildlife Sanctuary are merited to inform public health interventions and decrease ARGs dissemination."
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    Prevalence of hepatitis b virus (HBV) basal core promoter/precore region molecular variants among HIV/HBV co-infected and HBV mono-infected patients in Ile-Ife, Nigeria
    (Medwin Publishers, 2021) Osasona, O. G.; Boudarene, L.; Fasoro, O. A.; George, U. E.; Oguzie, J.; Ariyo, O. E.; Olumade, T. J.; Adeniyi, A.; Adewumi, O. M.; Adeniji, J. A
    Introduction: Evolution of phenotypic diversity among viruses occurs as an escape mechanism against host immune pressure or drug selective pressure. Among HIV/HBV co-infected individuals, various HBV basal core promoter (BCP)/precore (PC) region molecular mutants had been reported with associated phenotypic defect in HBeAg production. The emergence of HBeAg negative variants of HBV in HIV co-infected individuals have profound implication on the diagnosis, management and prognosis of this subset of individuals. This includes delayed clearance of HBV, early development of adverse hepatic events such as liver cirrhosis and hepatocellular carcinoma. Currently, little is known about HBV BCP/PC region genomic heterogeneity in HIV/HBV co-infected patients in Nigeria. Therefore, this study was focused on investigating evidence of precore/core region genomic variability among HIV/HBV co-infected patients in Nigeria. Materials and Methods: A total of 40 patients (20 HIV/HBV co-infected and 20 HBV mono-infected samples) were enrolled into the study and subsequently tested for HBsAg, HBeAg and HBeAb using specific Enzyme-Linked Immunosorbent Assay (ELISA). The BCP/PC genome regions (nucleotides 1653-1959) were amplified using a nested PCR assay and then subjected to BCP/PC mutational analysis in genome sites affecting HBeAg expression especially at the BCP transcriptional and PC Translational stop codon sites. Results: Overall, 5 (83.3%) of the six exploitable sequences after analysis showed various BCP/PC mutations. Only 1(16.6%) sequence from an HIV/HBV co-infected patient had the BCP transcriptional (double mutation; A1762T/G1764A) mutant. Analysis of the PC translational stop codon showed 4 (66.6%) having the G1896A mutants while 33.3% (2) had G1899A mutants. Conclusion: This study has broadened the available evidence of BCP/PC region molecular mutants among HIV/HBV coinfected patients in Nigeria and assessed the difference of mutation prevalence in comparison with HBV mono-infected cohort.