Mycobacterium tuberculosis survival and biofilm formation studies: effect of D-amino acids, D-cycloserine and its components.

Abstract

D-amino acids play an important role in cell wall peptidoglycan biosynthesis. Mycobacterium tuberculosis D-amino acid oxidase deletion led to reduced biofilm-forming ability. Other recent studies also suggest that the accumulation of D-amino acids blocks biofilm formation and could also disperse pre-formed biofilm. Biofilms are communities of bacterial cells protected by extracellular matrix and harbor drug-tolerant as well as persistent bacteria. In Mycobacterium tuberculosis, biofilm formation or its inhibition by D-amino acids is yet to be tested. In the present study, we used selected D-amino acids to study their role in the prevention of biofilm formation and also if D-cycloserine's activity was due to presence of D-Serine as a metabolite. It was observed that D-serine limits biofilm formation in Mycobacterium tuberculosis H37Ra (Mtb-Ra), but it shows no effect on pre-formed biofilm. Also, D-cycloserine and its metabolic product, hydroxylamine, individually and in combination, with D-Serine, limit biofilm formation in Mtb-Ra and also disrupts existing biofilm. In summary, we demonstrated that D-alanine, D-valine, D-phenylalanine, D-serine, and D-threonine had no disruptive effect on pre-formed biofilm of Mtb-Ra, either individually or in combination, and D-cycloserine and its metabolite hydroxylamine have potent anti-biofilm activity.