The effects of isoniazid on the carbohydrates of Mycobacterium tuberculosis BCG

Abstract

1. Mycobacterium tuberculosis BCG was usually grown in glycerol-asparagine-casein hydrolysate medium. A soluble fraction was obtained from the cells with aq. 50% ethanol; unbound lipids were then removed and the cells were treated with dilute alkali to give, after acidification, an alkali-extractable fraction and an insoluble fraction. On occasion, lipopolysaccharides were obtained by extracting with phenol or dimethyl sulphoxide instead of alkali. The soluble fraction contained, particularly after long extraction, polysaccharide containing mainly glucose, in addition to trehalose and monosaccharides and their derivatives. The alkali-extractable fraction contained polysaccharides containing mannose, glucose, arabinose, galactose and 6-O-methylglucose. These could be resolved into three fractions of markedly different molecular size. It is argued that the high-molecular-weight materials originated from the outside of the cell envelope and the medium-molecular-weight materials from a middle layer of the envelope. 2. Exposure of the growing cells to isoniazid, usually at 1 or 10mug/ml for 6-12h, increased the total cell carbohydrate, mainly due to an increase in trehalose and in insoluble glucan. It also facilitated the extraction of polysaccharide into the medium and the soluble fraction. This produced about a 25% decrease in the amount of carbohydrate in the alkaline-extractable fraction, mainly due to a fall in glucose, arabinose and 6-O-methylglucose. The decrease was confined to polysaccharides of large and medium molecular weight. When intact lipopolysaccharides were extracted, their amount was also decreased by isoniazid. 3. Substitution of ammonium sulphate for asparagine and casein hydrolysate in the medium, so that glycerol was the sole carbon source, decreased the carbohydrate accumulation brought about by isoniazid but did not alter its effect on polysaccharide extraction. 4. Growth with (14)C-labelled substrates showed that glycerol provided two to four times as much of the cell carbon as did asparagine, when both were present. Under these conditions isoniazid inhibited the incorporation of carbon atoms from asparagine into the cells, but had little effect on the total incorporation from glycerol. These experiments also showed that the effect of isoniazid on alkali-extractable polysaccharides was due to their loss to the soluble fraction and external medium. 5. It is suggested that isoniazid inhibits a pathway (probably the synthesis of mycolic acid) involved in the formation of the cell envelope, and that this inhibition results in some re-channelling of intermediates into carbohydrate synthesis and in some loss of polysaccharides through damage to the envelope.