A protein interaction map of the mitotic spindle.

The mitotic spindle consists of a complex network of proteins that segregates chromosomes in eukaryotes. To strengthen our understanding of the molecular composition, organization, and regulation of the mitotic spindle, we performed a system-wide two-hybrid screen on 94 proteins implicated in spindle function in Saccharomyces cerevisiae. We report 604 predominantly novel interactions that were detected in multiple screens, involving 303 distinct prey proteins.

Targeting tumor cells.

Several recent scientific and technical developments have made it possible to postulate the use of the 'magic bullet' concept; that is, the identification of specific antigens present on tumor cells that can be targeted either by therapeutic antibodies or by small molecules. The use of monoclonal antibodies in cancer, in particular, has moved beyond the proof-of-concept stage, and many such antibodies are presently being tested in the clinic. Several antibodies have been successfully developed and are now in use against various cancers, and we can expect many more to become available in the next few years.

Therapeutic applications in the chemokine superfamily.

The chemokine superfamily is probably complete. There are 42 human chemokines that through interaction with 18 receptors (which belong to the GPCR superfamily-class A) play pivotal roles in many important human diseases. Here we review some of the most compelling opportunities for drug development in this area.