Lack of access to potable water has forced many inhabitants of informal settlements in South Africa to rely on surface water sources for their daily water needs, thus exposing these communities to microbial contamination that can result in water-borne diseases. These water sources also serve as natural habitats of pathogenic E. coli strains which harbour virulence factors, which could play a role in the disease process, as well as various multi-drug resistant water-borne pathogens. This study investigated the microbiological quality of two river waters in Durban, South Africa, using total coliform and faecal coliform population as indices. The virulence markers and antibiogram profiles of the E. coli isolates from these rivers were also determined. The results indicated that water from these river sources were of poor microbiological quality and unfit for human consumption. Antibiotic Resistance Profiles of the isolates revealed that 97.1% of the Palmiet River isolates and 71.15% of the Umgeni River isolates were multi-resistant to the antibiotics tested, with all the isolates found to be resistant to novobiocin. Characterization of the virulence markers revealed the presence of stx1, cnf1 and eaeA genes, indicating the possible health risk associated with the ingestion of water from these rivers. The inherent health risks associated with the use of these river water emphasises the need for safe water supply and provision of proper sanitation facilities for the inhabitants of the informal settlements along these river banks.