Tuberc Respir Dis.  1995 Oct;42(5):646-653. 10.4046/trd.1995.42.5.646.

Plasma Activity of Lysosomal Enzymes in Active Pulmonary Tuberculosis

Affiliations
  • 1Department of Internal Medicine, Asan Medical Center, College of Medicine University of Ulsan, Seoul, Korea.
  • 2Department of Clinical Pathology, Asan Medical Center, College of Medicine University of Ulsan, Seoul, Korea.

Abstract

BACKGROUND
The confirmative diagnosis of pulmonary tuberculosis(Tb) can be made by the isolation of Mycobacterium Tuberculosis(MTb) in the culture of the sputum, respiratory secretions or tissues of the patients, but positive result could not always be obtained in pulmonary Tb cases. Although there are many indirect ways of the diagnosis of Tb, clinicians still experience the difficulty in the diagnosis of Tb because each method has its own limitation. Therefore development of a new diagnostic tool is clinically urgent. It was reported that silica cause some lysosomal enzymes to be released from macrophages in vitro and one of these enzymes is elevated in workers exposed to silica dust and in silicotic subjects. In pulmonary Tb, alveolar macrophages are known to be activated after ingestion of MTb. Activated macrophages can kill MTb through oxygen free radical species and digestive enzymes of lysosome. But if macrophages allow the bacilli to grow intracellularly, the macrophages will die finally and local lesion will enlarge. Then it is assumed that the lysosomal enzymes would be released from the dead macrophages. The goal of this investigation was to determine if there are differences in the plasma activities of lysosomal enzymes, beta-glucuronidase(GLU) and beta-N- acetyl glucosaminidase(NAG), among the groups of active and inactive pulmonary Tb and healthy control, and to see if there is any possibility that the plasma activity of GLU and NAG can be used as diagnostic indicies of active pulmonary Tb.
METHODS
The plasma were obtained from 20 patients with bacteriologically proven active pulmonary Tb, 15 persons with inactive Tb and 20 normal controls. In 10 patients with active pulmonary Tb, serial samples after 2 months of anti-Tb medications were obtained. Plasma GLU and NAG activities were measured by the fluorometric methods using 4-methylumbelliferyl sub- strates. All data are expressed as the mean +/-the standard error of the mean.
RESULTS
The activites of GLU and NAG in plasma of the patients with active Tb were 21.52 +/-3.01 and 325.4+/-23.37(nmol product/h/ ml of plasma), respectively. Those of inactive pulmonary Tb were 24.87+/-3.78, 362.36+/-33.92 and those of healthy control were 25.45 +/-4.05, 324.44+/-28.66 (nmol product/ h/ml of plasma), respectively. There were no significant differences in the plasma activities of both enzymes among 3 groups. The plasma activities of GLU at 2 months after anti-Tb medications were increased(42.18+/-5.94 nmol product/h/ ml of plasma) in the patients with active pulmonary Tb compared with that at the diagnosis of Tb(P-value <0.05).
CONCLUSION
The results of the present investigation suggest that the measurement of the plasma activities of GLU and NAG in the patients with active pulmonary Tb could not be a useful method for the diagnosis of active Tb. Further investigation is necessary to define the reasons why the plasma activities of the GLU was increased in the patients with active pulmonary Tb after Tb therapy.

Keyword

Tuberculosis; Lysosomal enzymes; beta-glucuronidase; beta-N-acetyl glucosaminidase; Diagnosis

MeSH Terms

Diagnosis
Dust
Eating
Glucuronidase
Humans
Lysosomes
Macrophages
Macrophages, Alveolar
Mycobacterium
Oxygen
Plasma*
Silicon Dioxide
Sputum
Tuberculosis
Tuberculosis, Pulmonary*
Dust
Glucuronidase
Oxygen
Silicon Dioxide
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