Occurrence of virulence genes icaADBC and antibiotic resistance genes blaZ, mecA, and aac(6’)-Ie-aph (2’’)-Ia in coagulase-negative staphylococci isolates from neonates with sepsis at a regional referral hospital in Dar es Salaam, Tanzania

Abstract Background Coagulase-negative staphylococci (CoNS) have been linked to severe conditions such as bloodstream infection, with biofilm formation regarded as the major virulence mechanism. This study determined virulence genes (VGs) (icaA, icaB, icaC, and icaD) responsible for biofilm formation and antibiotic resistance genes (ARGs) (blaZ, mecA, and aac(6’)-Ie-aph(2’’)-Ia) in CoNS isolated from blood samples of 70 neonates with sepsis in Dar es Salaam, Tanzania. We used VITEK®MS (BioMérieux, France) for speciation and phenotypically detected biofilm production using the Congo red agar. Polymerase chain reaction was performed for ARGs and VGs detection; principal component analysis was used to ascertain their relationship. Results Out of 70 CoNS, Staphylococcus epidermidis, 27 (36.8%) was the most commonly isolate, subsequently to Staphylococcus haemolyticus, 24 (34.3%). The intercellular adhesion genes (ica) were detected in all isolates, with IcaD found in 70 (100.0%), followed by icaB 69 (98.6%), icaC 69 (98.6%), and icaA 65 (92.9%). Four virulence gene combinations (icaADBC, icaBCD, icaACD, and icaABD) were detected, predominantly icaADBC 63 (90.0%). Sixty-one (87.1%) isolates harbored three ARGs, mostly the mecA gene 69 (98.6%), followed by blaZ 67 (95.7%) and aac (6’)-Ie-aph (2’’)-Ia, 65 (92.7%). We observed a moderate positive correlation between mecA and icaA genes (r = 0.4341). Sixty-five (97.0%) isolates resistant to penicillin harbored blaZ genes, and all 62 (100%) resistant to oxacillin harbored mecA genes. Of the 66 isolates resistant to gentamycin, 62 (93.9%) harbored the aac (6’)-Ie-aph (2’’)-Ia gene. The mecA gene contributed most of the resistance, followed by aac(6’)-Ie-aph(2’’)-Ia genes. However, the icaA and icaD genes significantly influenced the virulence of CoNS. Conclusions Most CoNS isolated from blood samples of neonates with sepsis harbor a variety of clinically relevant virulence and resistance genes, indicating their ability to cause severe infections that are difficult to treat. Significantly, 59 (84.3%) isolates were phenotypically penicillin, gentamycin, and oxacillin resistant; the antibiotics recommended in the national guidelines for empiric treatment of neonatal sepsis.