http://harvardscience.harvard.edu/stories/person/1701 Stories and external links referencing a person (RSS) en http://harvardscience.harvard.edu/medicine-health/articles/novel-combination-overcomes-drug-resistant-multiple-myeloma-cells <!--paging_filter--><p>The researchers hope to move rapidly to clinical trials of the therapy, a combination of the drug Velcade and an experimental compound that was designed by researchers at the Broad Institute of the Massachusetts Institute of Technology and Harvard University. <p>The report demonstrates that the combination was more than twice as effective as either drug alone in killing resistant cells from patients' bone marrow. <p>"This is not just another drug - this is a whole new approach to treating multiple myeloma," said Kenneth Anderson, M.D., senior author of the paper. <p>Velcade is the first in a class of so-called proteasome inhibitors, which destroy cancer cells by blocking the proteasome, a disposal mechanism that rids the cell of abnormal proteins. Cells in which the proteasome is jammed eventually commit suicide, triggered by the accumulation of proteins, explains Anderson. <p>However, many cancer cells are resistant to proteasome inhibitors like Velcade. Recent studies have revealed an alternative protein-disposal complex, the aggresome, that may take over enough of the job when the proteasome falters to allow the cells to survive. <p>Therefore, the Dana-Farber researchers suggested that blocking both protein disposals at once might get around this resistance mechanism. Scientists led by one of the study's authors at the Broad Institute designed a drug that blocks an enzyme critical to the aggresome's ability to function. <p>These highly promising results, wrote the researchers, "provide the framework for clinical trials designed to enhance sensitivity and overcome resistance to bortezomib [Velcade], thereby improving patient outcome in multiple myeloma."</p> Mon, 26 Mar 2007 06:20:05 -0400 70652986 3649 at http://harvardscience.harvard.edu