Cloning, expression and characterisation of an HtrA-like serine protease produced in vivo by Mycobacterium leprae

Members of the high temperature requirement A (HtrA) family of chaperone proteases have been shown to play a role in bacterial pathogenesis. In a recent report, we demonstrated that the gene ML0176, which codes for a predicted HtrA-like protease, a gene conserved in other species of mycobacteria, is transcribed by Mycobacterium leprae in human leprosy lesions. In the present study, the recombinant ML0176 protein was produced and its enzymatic properties investigated. M. lepraerecombinant ML0176 was able to hydrolyse a variety of synthetic and natural peptides. Similar to other HtrA proteins, this enzyme displayed maximum proteolytic activity at temperatures above 40°C and was completely inactivated by aprotinin, a protease inhibitor with high selectivity for serine proteases. Finally, analysis of M. leprae ML0176 specificity suggested a broader cleavage preference than that of previously described HtrAs homologues. In summary, we have identified an HtrA-like protease in M. lepraethat may constitute a potential new target for the development of novel prophylactic and/or therapeutic strategies against mycobacterial infections.

Isolation of a DOPA positive rapid growing mycobacterium from blood of a leprosy patient.

A rapid growing acid-fast organism was isolated from the blood of a borderline leprosy patient. The isolate appeared to be close to Mycobacterium cheloni group of organisms but showed globi, cigar shaped bundles and was positive for DOPA-oxidase. Catalase, iron uptake, sodium chloride tolerance, tellurite reduction, Tween 80 hydrolysis and pyridine extraction tests were also positive. The 3-days arylsulphatase test and nitrate reduction test were negative.

Unique metabolic properties of Mycobacterium leprae.

My first contact with Dr. Dharmendra was through correspondence. While working for Ph.D., I wrote to him that a section in his book "Notes on Leprosy" was ambiguous. Instead of ignoring the letter, he replied, agreeing to clarify it in the revised edition. I went to work at Carville at the invitation of Dr. Kirchheimer, who had seen my Ph.D. thesis. Dr. Dharmendra visited Carville to receive the Damien-Dutton award and stayed there for a few days. Carville is an isolated place with no public transportation. I used to take him for afternoon drives to the countryside around Carville. He published some of our papers in Leprosy in India and later in Indian Journal of Leprosy. He was very prompt in acknowledging receipt of manuscripts and suggesting any changes to be made. He also reprinted in the Journal several of our papers published elsewhere, and also a lecture I gave at a meeting of the Japanese Leprosy Association. During one of my visits to India, Dr. M. C. Vaidya had arranged a talk by me at the All India Institute of Medical Sciences, New Delhi. At the invitation of Dr. Dharmendra, I visited him in his home. We used to exchange new year cards and letters. He wrote to me about his eye infection and consequent loss of sight in one eye. He asked me to write an editorial for an issue of Indian Journal of Leprosy (January 1989). The last time I met him was during the International Leprosy Congress held in New Delhi.

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.

Metabolic studies on mycobacteria. IV. Assay of isocitrate lyase and malate synthase activity in M. leprae.

Cell free extracts from M. tuberculosis H37 Rv, M. smegmatis armadillo derived M. leprae and normal armadillo liver homogenates were assayed for the presence of isocitrate lyase and malate synthase activity. It was observed that significant amount of isocitrate lyase and malate synthase activity was present in M. tuberculosis H37 Rv, M. smegmatis and armadillo derived M. leprae. No such activity was demonstrable in cell free extracts of normal armadillo liver. It is concluded that M. leprae like other mycobacteria has the capability to metabolise via glyoxylate bypass of TCA cycle. These findings may be relevant for understanding the energy metabolism of M. leprae under stress conditions and possibly the 'persister' stage.

Lipase activity in Mycobacterium leprae--an indicator of metabolic function.

Presence of lipase, in Mycobacterium leprae obtained from human nodules and infected armadillo tissues, has been detected by demonstrating the ability of the bacteria to hydrolyze tributyrin. This capacity is expressed during incubation of the bacteria with the substrate and needs a source of carbon and other energy metabolites. The activity is blocked by anti M. leprae drug rifampicin. It is concluded that expression of lipase activity is a metabolic event of M. leprae, while they are maintained in an energy providing medium.

Biochemical studies on Mycobacterium leprae.

Very little information is available on the basic biology of Mycobacterium leprae. It is not known why the organism fails to grow in bacteriological media or in cell cultures and why it has an unusual predilection for certain tissues in the human host where cells derived from the neural crest occur (e.g. skin, peripheral nerves adrenal medulla). Biochemical studies have revealed that M. Leprae contains an unusual form of the enzyme diphenoloxidase which has not been detected in other mycobacteria. The presence of a specific glutamic acid decarboxylase in the organism has been demonstrated. Although a few enzymes of glycolysis and tricarboxylic acid cycle have been investigated, nothing characteristic of the bacterium has been discovered, and how M. leprae derives energy for its survival and proliferation still remains obscure.

Adenosina trifosfato: su aplicación en el seguimiento del paciente de lepra / Adenosine triphosphate: its use in the follow-up of the patient with leprosy

El ensayo del ATP ha sido utilizado para evaluar la viabilidad de M. leprae obtenidos de pacientes lepromatosos en tratamiento con DDS. Los resultados obtenidos inmediatamente fueron subsecuentemente confirmados (8-11 meses más tarde) usando la técnica de la almohadilla plantar del ratón. Aquella misma técnica puede ser usada para identificar casos resistentes a los 3-4 meses de iniciar el tratamiento antileproso. La rapidez técnica y el bajo costo del método del ATP son comparados con aquellos del método de la almohadilla plantar del ratón

Isoenzymes of mycobacteria. II. Relevance of LDH zymograms in taxonomy and identification.

The cell free extracts of mycobacteria namely M. kansasii M. avium, M. tuberculosis, BCG (Glaxo), M. gastri, M. phlei, M. smegmatis, M. vaccae, M. strain w., M. scrofulaceum, M. gordonae, M. nonchromogenicum E. coli, Staph, aureus, and M. leprae infected skin have been electrophoresed and stained for LDH activity. Normal skin tissue was also taken as control. It was found that all the organisms tested showed distinct species specific LDH isoenzyme patterns. There was no extra band but an aberrant zone of LDH activity was seen in M. leprae infected human skin in comparison to LDH isoenzymes from normal skin. No strain variations was found among the different strains of species investigated. Results described in the present paper indicate that LDH isoenzyme patterns of mycobacteria could be of identification value at species level.

In vitro effect of Mycobacterium leprae suspensions on the polymorphonuclear neutrophiles function of hanseníasis patients to Candida albicans and Candida pseudotropicalis

The in vitro effect of Mycobacterium leprae suspensions on the PMN hability to phagocyting and killing Candida albicans and Candida pseudotropicalis was studied in forty-five patients of Hansen's disease and in fifteen healthy controls. Our results show no significative differences between the diferent studied groups, both for the phagocytosis and for the lysis of yeasts. There was no significant changes in the mean values of these functions after previous or simultaneously incubation with Mycobacterium leprae suspensions. Those observations confirmed that there are not alterations in the enzimatic battery of PMN in Hansen's disease patients and that the Mycobacterium leprae presence does not exert stimulating effect on this in vitro model

Dopa-oxidase activity on ICRC bacilli.

Presence of O-phenoloxidase is regarded as M. leprae specific character. This enzyme activity was found to be present in ICRC bacilli, Strain C-44. Though this strain is cultivable 'in vitro', the expression of DOPA-Oxidase activity strongly suggests that it carries M. leprae genome. The ICRC bacilli, therefore, may thus from a group of M. leprae culture isolates, distinct from other known cultivable mycobacteria which do not possess this enzyme activity.