The proteasome inhibitor bortezomib is a novel anticancer drug that has shown promise in the treatment of refractory multiple myeloma. However, its clinical efficacy has been hampered by the emergence of drug-resistance phenomena, the molecular basis of which remains elusive. Toward this end, we here developed high levels (45-to 129-fold) of acquired resistance to bortezomib in human myelomonocytic THP1 cells by exposure to stepwise increasing (2.5-200 nM) concentrations of bortezomib. Study of the molecular mechanism of bortezomib resistance in these cells revealed (1) an Ala49Thr mutation residing in a highly conserved bortezomib-binding pocket in the proteasome 5-subunit (PSMB5) protein, (2) a dramatic overexpression (up to 60-fold) of PSMB5 protein but not of other proteasome subunits including PSMB6, PSMB7, and PSMA7, (3) high levels of cross-resistance to 5 subunit-targeted cytotoxic peptides 4A6, MG132, MG262, and ALLN, but not to a broad spectrum of chemotherapeutic drugs, (4) no marked changes in chymotrypsin-like proteasome activity, and (5)
IntroductionThe ubiquitin proteasome system (UPS) facilitates the degradation of ubiquitin-tagged intracellular proteins, many of which play a regulatory role in cell proliferation, cell survival, and signaling processes. [1][2][3] As such, proteasome inhibitors have been recognized as a new generation of chemotherapeutic agents and antiinflammatory drugs. [4][5][6][7][8][9][10][11][12][13] The boronic dipeptide bortezomib (PS341, Velcade) is the first proteasome inhibitor that has been approved for the treatment of refractory multiple myeloma. 6,14 Bortezomib is a reversible inhibitor that targets primarily the 5-subunit (PSMB5) subunit/chymotrypsin-like activity of the 26S proteasome and to a somewhat lesser extent also caspase-like activity harbored by the 1 (PSMB6) proteasome subunit. At higher concentrations, bortezomib inhibits trypsin-like proteolytic activity facilitated by 2 (PSMB7) proteasome subunits. [15][16][17] Despite promising clinical activity, some patients with multiple myeloma failed to respond to bortezomib therapy. 18 Moreover, the efficacy for bortezomib may differ between tumor types. 6,[19][20][21] Whether these observations are related to common mechanisms of drug resistance frequently seen for anticancer 22 or anti-inflammatory drugs 23 is largely unknown. However, their characterization is of key importance as it may pave the way for the overcoming of drug resistance, thereby enhancing the efficacy of this new class of proteasome-targeted drugs.One mode of primary resistance to bortezomib is conveyed by constitutively high levels of heat shock protein 27. 24 In the context of acquired resistance, studies aimed at delineating the mechanism of acquired resistance to the tripeptidyl aldehyde proteasome inhibitor ALLN (N-acetyl-leucyl-leucyl-norleucinal) revealed 2 possible molecular mechanisms: (a) enhanced cellular efflux via the multidrug resistance (MDR) transporter P-glycoprotein (Pgp; ABCC1) 25 or multidrug resistance-related pro...
