Growth and Metabolism of Clostridioides difficile in Hungate-Style Media

Abstract

Clostridioides difficile is a clinically and agriculturally important organism with diverse metabolic capabilities. Commercially available media types to cultivate C. difficile typically include multiple growth substrates and often selective agents. Under these conditions, it is difficult to determine what the bacteria utilized and which products are derived from which substrates. These experiments compared a commercial broth (Reinforced Clostridium Medium/RCM) to simpler, defined, carbonate-based media types influenced by Robert Hungate. Peptides (tryptone peptone), amino acids (casamino acids), and/or glucose were added to evaluate the growth of C. difficile strains 9689, BAA-1870, and 43597, and the metabolism of the type strain 9689. C. difficile grew to the greatest optical density in the rich RCM broth but produced less ammonia than the tryptone-containing media types. C. difficile utilized all glucose in RCM and T+G media in addition to performing amino acid fermentations, though the volatile fatty acids produced were not necessarily consistent across media type. When cultured in CAA-containing media, 9689 performed very little metabolism and did not grow regardless of supplementation with glucose. These data demonstrated that C. difficile could metabolize substrates and grow in defined, anaerobic, and carbonate-buffered media. Hungate-style media appear to be an acceptable choice for reliable culturing of C. difficile.