Evaluation of suitable solvents for testing the anti-proliferative activity of triclosan - a hydrophobic drug in cell culture.

Triclosan, a broad spectrum antibiotic is currently being evaluated for its anti-cancer property. Though several solvents are available to dissolve lipophilic (hydrophobic) drugs, solubility and toxicity aspects pose a challenge, when combined with the cell culture medium. In this paper, we present a simple approach based on physico-chemical and biologic criteria to choose a suitable solubilizing agent to study the anti-proliferative property of triclosan in breast cancer cell line MCF-7. Triclosan was dissolved in five different solvents viz. DMSO, absolute ethanol, 1 N NaOH, 55% polyethylene glycol + 45% ethanol mixture (PEM) and acetone and diluted with the culture medium (1 mg/ml). Although triclosan dissolved completely in all five solvents, on dilution with culture medium, turbidity was observed in DMSO, 1 N NaOH and ethanol. Cell viability was 95.23% in 10 ml of acetone, when compared with 49.45% at the same volume of PEM. This non-toxic nature of acetone was supported by DNA fragmentation analysis and phase contrast microscopy. A significant decrease in cancer cell proliferation at 100 mg/ml of acetone-solubilized triclosan, compared with 100 mg/ml of PEM-solubilized triclosan (p<0.05) indicated stronger anti-proliferative effect and greater drug-sensitivity of triclosan when solubilized in acetone. Results showed that acetone-solubilized triclosan was suitable for anti-cancer investigations in cultured MCF-7 cells.

Application of nested polymerase chain reaction (nPCR) using MPB 64 gene primers to detect Mycobacterium tuberculosis DNA in clinical specimens from extrapulmonary tuberculosis patients.

BACKGROUND & OBJECTIVE: The conventional culture technique for diagnosis of extrapulmonary tuberculosis is time consuming. In order to find a sensitive and rapid technique nested polymerase chain reaction (nPCR) targeting the conserved MPB 64 gene of Mycobacterium tuberculosis was evaluated for detection of M. tuberculosis DNA directly from clinical specimens of extrapulmonary origin. METHODS: A total of 400 clinical specimens from clinically suspected cases of extrapulmonary tuberculosis and 30 control specimens of nontuberculous aetiology were processed by smear and culture and by nPCR technique for detection of M. tuberculosis. The specimens were divided into 3 groups, (group I--280 specimens [104 peritoneal fluid (PF), 120 cerebrospinal fluid (CSF), 44 lymph node biopsies 3 pericardial fluid and 9 other biopsy specimens], group II--120 aqueous humour (AH) from idiopathic granulomatous uveitis cases, and group III--30 control specimens (10 CSF and 20AH). RESULTS: The conventional culture was positive only in 16 of 400 specimens. The overall positivity of nPCR was 35.2 per cent (141/400). Among the 280 specimens from extrapulmonary lesions (group I), 15 were bacteriologically positive, while 115 of 265 bacteriologically negative specimens (43.4%) were positive by nPCR. All the 30 control specimens were negative by nPCR. INTERPRETATION & CONCLUSION: The nPCR using MPB64 gene primers might be a rapid and reliable diagnostic technique for detection of M. tuberculosis genome in clinically suspected extrapulmonary tuberculosis specimens, as compared to the conventional techniques.

Polymerase chain reaction using IS6110 primer to detect Mycobacterium tuberculosis in clinical samples.

Nucleic acid amplification using IS6110 primers to detect Mycobacterium tuberculosis in clinical specimens has been extensively used as laboratory tool for the diagnosis for tuberculosis. Despite it's dramatic scientific value in practice, it is not as sensitive as expected for the detection of M. tuberculosis. The results of the study suggest that PCR using 123 bp fragment of DNA belonging to IS6110 is specific (95.6%) but only has a sensitivity of 30% to detect M. tuberculosis in clinical specimens.

Polymerase chain reaction using IS6110 primer to detect Mycobacterium tuberculosis in clinical samples.

Nucleic acid amplification using IS6110 primers to detect Mycobacterium tuberculosis in clinical specimens has been extensively used as laboratory tool for the diagnosis for tuberculosis. Despite it's dramatic scientific value in practice, it is not as sensitive as expected for the detection of Mycobacterium tuberculosis. The results of the study suggest that PCR using 123 bp fragment of DNA belonging to IS6110 is specific (95.6%) but only has a sensitivity of 30% to detect M. tuberculosis in clinical specimens.