DNA COUGHED UP WITH PHLEGM COULD POINT TO LUNG CANCER

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DNA COUGHED UP WITH PHLEGM COULD POINT TO LUNG CANCER
27 June 2007 - American Association for Cancer Research (AACR)

University of Maryland School of Medicine researchers who are developing an inexpensive and non-invasive gene probe to help diagnose early stage lung cancer in current and former smokers say DNA coughed up along with phlegm could point to lung cancer

The researchers report, in the Clinical Cancer Research, that their fledgling test, designed to check whether two genes believed to be tumor suppressors are deleted in cells found in sputum, identified 76 percent of stage I lung cancer patients whose tumors also showed the same genetic loss. Existing sputum 'cytology' tests, which look for changes in cell structure, identified only 47 percent of the patients, they say.

While no other simple sputum analysis has found such a high correlation with lung cancer, it is not yet good enough for the clinic, researchers say, and so they are now expanding their test to screen for up to eight genes.

'There is an urgent need to develop reliable early diagnostic biomarkers for lung cancer that can be detected non-invasively, and these two genes look to be great candidate markers for such a test,' said Feng Jiang, M.D., Ph.D., assistant professor of pathology at the University of Maryland School of Medicine. 'We need to validate our findings, of course, but we have shown that the genetic aberrations seen in sputum reflect the same genetic aberrations found in lung tumors, and that these molecular changes occur before any morphological changes can be seen in a cytology test.'

Sputum cytology is still used in some clinics, but has largely been found to be insensitive, Jiang said. For that reason, he and his collaborators have been working for years on a simple, effective way to detect changes in the genes of cells in the bronchial airway that signify early cancer is developing somewhere in the lung system. Many cells within the airway exhibit a similar pattern of genetic abnormalities that leads to lung cancer development, the researchers say, but the challenge is to find altered genes that are only predictive of cancer, and not just of general cellular damage from smoking.

'Most heavy smokers never develop lung cancer, even though cells in their airways show genetic damage,' Jiang said. 'The trick is to find the genes that are only cancer related.'

The research group had previously identified a set of genes that were deleted in lung cancer tumors, and in this study, they tested three of them (HYAL2, FHIT, and SFTPC) in sputum samples taken from 38 patients with stage 1 non-small cell lung cancer, 36 cancer-free smokers and 28 healthy nonsmokers.

Given that sputum contains expectorated airway cells, the researchers asked each of the participants to cough into a cup first thing in the morning for three days. Investigators then examined the sputum with both traditional cytology and with fluorescent in situ hybridization. The FISH technique uses fluorescently labeled single-strand DNA probes to bind to the complementary strand of a specific gene. The presence, or absence, of a fluorescent signal produced when the strands bind can be detected and scored with use of a special microscope.

'As a diagnostic tool to identify early stage lung cancer patients who would then benefit most from curative therapies, FISH is very cheap and convenient,' Jiang said. 'The technique may be also useful in monitoring lung cancer patients for response to treatment, disease progression and early evidence of relapse in the future.'

They found that FISH could not detect deletions in the SFTPC gene in sputum, although it was absent in 71 percent of tumors. But the loss of HYAL2 and FHIT in a patient's tumor could be detected in that person's sputum. The investigators specifically found that HYAL2 and FHIT were deleted in 84 percent and 79 percent of tumors and in 45 percent and 40 percent of matched sputum, respectively. Combining both HYAL2 and FHIT deletions increased sensitivity to 76 percent (compared to 46 percent for cytology tests) and the combined probe had a specificity of 92 percent.

The false positive rate of about eight percent occurred because HYAL2 was found in sputum of four cancer-free smokers and FHIT deletions was found in three cancer-free smokers. However, the deletions were not found in the sputum of healthy non-smokers. 'Those deletions in cancer-free smokers could represent an early indication that lung cancer is developing that has not yet been detected, but we won't know that without longer follow-up study,' Jiang said.

The study was funded by the National Cancer Institute, and a researcher from The University of Texas M. D. Anderson Cancer Center participated with University of Maryland investigators in the study.

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About: American Association for Cancer Research (AACR)
The American Association for Cancer Research is a professional society of more than 24,000 laboratory and clinical scientists engaged in basic, translational, and clinical cancer research in the United States and more than 60 other countries. Founded in 1907, the AACR has as its mission to accelerate the prevention and cure of cancer through research, education, communication, collaboration and advocacy. Among the means to that end, the association publishes five major peer-reviewed scientific journals: Cancer Research – the most frequently cited cancer journal in the world – as well as Clinical Cancer Research; Molecular Cancer Therapeutics; Molecular Cancer Research; and Cancer Epidemiology, Biomarkers & Prevention.

The AACR convenes an Annual Meeting attended by more than 15,000 scientists from around the world who share new and significant discoveries in the cancer field. Specialty meetings throughout the year focus on all the important areas of basic, translational and clinical cancer research.

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