Sporicidal Action of Auto-oxidized Ascorbic Acid for Clostridium

Abstract

Neutralized ascorbic acid (AA), buffered or unbuffered and autoclaved or filter-sterilized, was sporicidal for Clostridium . A 0.2% concentration of AA was generally employed, and spore counts were made in a soft-agar modification of Wynne's medium in Prickett tubes. Spores of Clostridium botulinum 115B were less susceptible than those of C. sporogenes PA 3679, whereas C. bifermentans spores were by far the most sensitive. At 75 C, spores of PA 3679 were killed at a rate of about 9% at 0 min (warm-up) to 99+% at 100 min. The lower the temperature, the longer the time needed for a given lethality. The percentage of killing increased with increasing concentrations of AA, and the rate of killing was lower at a higher concentration of spores. At least two mechanisms were operative: a major mechanism involving a product(s) of AA auto-oxidation, and a minor mechanism involving copper-ascorbate toxicity. AA reduced in natural gas was not sporicidal after 18.5 hr at 25 C, whereas 92% of the spores were killed by oxidized AA. Although H 2 O 2 per se was sporicidal, catalase did not reverse lethality of fresh or oxidized AA. Dehydroascorbate was as sporicidal as any AA preparation. Added copper (0.00001%) increased the rate of lethality of freshly prepared AA from 66 to 83% but was not effective with thoroughly oxidized AA. Ethylenediaminetetraacetic acid, NH 4 + , and phosphate partially reversed AA toxicity, deionized water had no effect, and complex media, as well as thioglycolate, eliminated AA lethality. Since the percentage of killing was affected by spore concentration, AA did not seem to stimulate “lethal germination.”