Metabolic studies on mycobacteria. III. Demonstration of key enzymes of TCA cycle in M. leprae.

Cell free extracts of armadillo derived M. leprae, M. phlei, M. smegmatis and normal armadillo liver were analysed for the two key enzymes of TCA cycle. Aconitase activity was assayed in the presence of inhibitor fluorocitrate and it was observed that cell free extracts from cultivable mycobacteria as well as aramadillo derived M. leprae had this enzyme activity and 66-82% of this activity was inhibited by 0.1 mM fluorocitrate. 74% of M. leprae derived enzyme activity was inhibited by fluorocitrate in contrast with armadillo derived enzyme which was only 29% inhibited by fluorocitrate. PAGE separation of cell free extracts and staining for Isocitrate dehydrogenase (ICD) activity showed that an additional bond of ICD activity was demonstrable in the cell free extracts of armadillo derived M. leprae and this was NADP dependent. The mobility (ef) of this band of activity was in the same range as ICD from cultivable mycobacteria and much lower than ICD from normal armadillo liver. From this study and from the previously reported work, it is concluded that like other mycobacteria TCA cycle is operative in M. leprae.

Isoenzyme patterns of mycobacteria. I. Factors influencing LDH isoenzymes of mycobacteria.

Cell free extracts of a fast growing mycobacterium (M. phlei) and a slow growing mycobacterium (M. tuberculosis H37Ra) were analysed for lactate dehydrogenase (LDH) isoenzymes under different experimental conditions. It was observed that growth of M. phlei when taken from Lowenstein Jensen (LJ) as well as Sauton's medium showed identical band but for (M. tuberculosis H37Ra the number of bands observed were less when grown on LJ-medium. There was no difference in LDH isoenzyme patterns when the mycobacteria were incubated at 30 degrees C and 37 degrees C and under different pH conditions (6.2-8.2). Actively growing cultures of both the species showed distinct LDH isoenzyme patterns whereas the activity and bands became indistinct in old cultures. The LDH bands from lyophilized growth studied resembled to those of fresh growth. The treatment of growth with 1M NaOH for one hour resulted in marked diminution of LDH activity. Sonication with wet growth weight of 0.5 gm per ml of distilled water was found to give clearer bands as compared to phosphate buffer. No loss of LDH isoenzymes activity was noticed after storing the extracts at -80 degrees C for one month, treating to 58 degrees C for one hour or freezing and thawing for 2 times whereas these isoenzymes were quite unstable at other storage temperatures. Increasing the staining time was found helpful in getting clearer bands when activity was low. It is concluded that the factors studied have important bearing on LDH isoenzyme patterns of mycobacteria and must be kept in mind while studying the LDH zymograms for any taxonomic identification of mycobacteria or for studying the metabolic role. These are important both for sensitivity and reproducibility of LDH zymograms.