The Role of Hsp70 in Cancer: A Study of the Hsp70 / Akt Relationship

Koren, John

01 January 2012

The Hsp70 family of molecular chaperones is essential for protein folding, re-folding misfolded client proteins, clearance of aberrant client proteins, and can also inhibit programmed cell death. There are two major cytosolic members of this family: the constitutive Hsc70, and the inducible Hsp72. Under stress conditions the Hsp70 family protects the cell from protein related damage by the induction of Hsp72. Hsc70 and Hsp72 are highly homologous with minor differences in substrate binding. In cancers, Hsp72 is commonly induced and this induction is thought to aid in cancer cell survival. In these studies we demonstrate the differential regulation of the prosurvival kinase Akt by Hsc70 and Hsp72. We demonstrate that of the two cytosolic forms, Hsp72 is the primary Akt regulator. Using a phenothiazine class inhibitor of Hsp70-family activity, methylene blue, we demonstrate dose dependent decreases in the levels of Akt; produced breast cancer specific cell death. This cell death could be rescued by the use of an Hsp70 family ATPase stimulating compound, SW02. We also demonstrate a similar phenotype with a rhodacyanine class Hsp70 family inhibitor, YM-1, also capable of reducing Akt and causing cancer specific cytotoxicity. The resulting Akt decreases were sufficient to block a tamoxifen-resistance pathway, allowing previously resistant cells to regain sensitivity to tamoxifen. These results demonstrate the capabilities of Hsp70 family inhibitors as potent compounds for the treatment of breast cancer.

Breast Cancer Signaling Pathways

Hsp70 Inhibitors

Molecular Chaperones

Stress Response

Tamoxifen Resistance

American Studies

Arts and Humanities

Biochemistry

Chemistry

Medicine and Health Sciences