The first U.S. clinical trial using genetic screening to identify lung tumors likely to respond to targeted therapies supports the use of those drugs as first-line treatment rather than after standard chemotherapy has failed.

An international consortium of scientists today in an advanced online publication in the journal Nature revealed a comprehensive view of the altered genetic background of the type of lung cancer that is the most common cause of cancer deaths in humans.

Determining the genetic profile of a particular lung tumor can help clinicians make the crucial decision about which chemotherapy treatment to try first.

Cancer causing mutations occur in our bodies every day – but luckily, we have specific genes that recognize these malignant events and keep cells from growing out of control. Only a few of these genes – called tumor suppressors – are currently known.

Collaborating scientists in Boston and North Carolina have found that a particular gene can block key steps of the lung cancer process in mice. The researchers report in the journal Nature that LKB1 is not only a "tumor-suppressor" gene for non-small cell lung cancer in mice, it also may be more powerful than other, better-known suppressors. The study will be published on the journal's Web site on Aug. 5 and later in a print version.

Talcum powder has been used for generations to soothe babies' diaper rash and freshen women's faces. But University of Florida researchers report the household product has an additional healing power: The ability to stunt cancer growth by cutting the flow of blood to metastatic lung tumors.

An international research team, led by investigators from the Massachusetts General Hospital (MGH) Cancer Center and Dana-Farber Cancer Institute (DFCI), has found a new way that some lung tumors become resistant to treatment with targeted therapy drugs like Iressa and Tarceva.