TY - JOUR
T1 - Radiosensitizing effects of the prenyltransferase inhibitor AZD3409 against RAS mutated cell lines
AU - Cengel, Keith A.
AU - Deutsch, Eric
AU - Stephens, Trevor C.
AU - Voong, K. Ranh
AU - Kao, Gary D.
AU - Bernhard, Eric J.
N1 - Funding Information:
Mutations at the H-, N- and K-ras loci represent some of the most frequent genetic FTase farnesyltransferase alterations in human cancers. These mutations may function as a critical early step in the FTI farnesyltransferase inhibitor tumorigenesis of a variety of human cancers including thyroid, non-small cell lung, pancre-GGTase geranylgeranyltransferase atic and colon carcinomas.1-5 In addition to its effects on tumorigenesis and resistance to GGTI geranylgeranyltransferase inhibitor therapies such as ionizing radiation, Ras activation can also alter the dynamics of tumor to PTI prenyltransferase inhibitor host interaction, promoting angiogenesis as well as tumor invasion and metastasis.3-5 While the differential functionality of RAS isoforms is incompletely understood, it appears that all can contribute to radiation resistance and loss of mutant ras expression has been This work was supported in part by a Young shown to abolish tumor formation in athymic mice and enhance radiosensitivity in a vari-Investigator Award from the Eastern ety of human cancer cell lines.6-8
PY - 2006/1/1
Y1 - 2006/1/1
N2 - Mutations at the H-, N- and K-ras loci are among the most frequent genetic alterations in human cancers. In this study, we have investigated the effect of AZD3409, a novel, peptidomimetic prenyltransferase inhibitor (PTI), on the radiosensitivity of cells with mutated ras alleles. AZD3409, developed by AstraZeneca, inhibits both farnesyl- and geranylgeranyl transferase in cell free systems. AZD3409 inhibits the growth of a variety of human cancer cell lines, including cells that express mutant alleles of either K- or H- ras and was well tolerated when administered orally to healthy volunteers in a phase I clinical trial. We have previously shown that PTI can radiosensitize human and rodent cancer cell lines that express activated RAS. Here we assessed the ability of AZD3409 to radiosensitize human cancer cell lines in vivo and in vitro and the activation state of RAS proteins in treated cells. Once daily oral administration of AZD3409 to nude mice bearing PSN-1 and MiaPaCa-2 human pancreatic cancer xenografts expressing mutant K-ras was well tolerated and resulted in a supra-additive reduction in clonogenic cell survival after irradiation. Similarly, AZD3409 reduced clonogenic survival in cells that express either mutant K- or H- ras in vitro. We next examined the effect of AZD3409 on the processing and activation of K- and H-RAS. AZD3409-mediated radiosensitization, both in vivo and in vitro, correlates with a decrease in H-RAS processing without detectable effect on K-RAS processing. RAS activation assays show that the decreased H-RAS processing is accompanied by decreased H-RAS activation in cell lines with mutations in either K- or H-ras. However, no decrease in K-RAS activation was detected. Thus, radiosensitization of human cancer cells that express mutated K-RAS occurred under conditions where AZD3409 inhibits the activation of farnesylated H-RAS, but did not inhibit K-RAS activation.
AB - Mutations at the H-, N- and K-ras loci are among the most frequent genetic alterations in human cancers. In this study, we have investigated the effect of AZD3409, a novel, peptidomimetic prenyltransferase inhibitor (PTI), on the radiosensitivity of cells with mutated ras alleles. AZD3409, developed by AstraZeneca, inhibits both farnesyl- and geranylgeranyl transferase in cell free systems. AZD3409 inhibits the growth of a variety of human cancer cell lines, including cells that express mutant alleles of either K- or H- ras and was well tolerated when administered orally to healthy volunteers in a phase I clinical trial. We have previously shown that PTI can radiosensitize human and rodent cancer cell lines that express activated RAS. Here we assessed the ability of AZD3409 to radiosensitize human cancer cell lines in vivo and in vitro and the activation state of RAS proteins in treated cells. Once daily oral administration of AZD3409 to nude mice bearing PSN-1 and MiaPaCa-2 human pancreatic cancer xenografts expressing mutant K-ras was well tolerated and resulted in a supra-additive reduction in clonogenic cell survival after irradiation. Similarly, AZD3409 reduced clonogenic survival in cells that express either mutant K- or H- ras in vitro. We next examined the effect of AZD3409 on the processing and activation of K- and H-RAS. AZD3409-mediated radiosensitization, both in vivo and in vitro, correlates with a decrease in H-RAS processing without detectable effect on K-RAS processing. RAS activation assays show that the decreased H-RAS processing is accompanied by decreased H-RAS activation in cell lines with mutations in either K- or H-ras. However, no decrease in K-RAS activation was detected. Thus, radiosensitization of human cancer cells that express mutated K-RAS occurred under conditions where AZD3409 inhibits the activation of farnesylated H-RAS, but did not inhibit K-RAS activation.
KW - Pancreatic cancer
KW - Prenyltransferase
KW - RAS
KW - Radiation
KW - Xenograft
UR - http://www.scopus.com/inward/record.url?scp=33751116803&partnerID=8YFLogxK
U2 - 10.4161/cbt.5.9.3172
DO - 10.4161/cbt.5.9.3172
M3 - Article
C2 - 16969121
AN - SCOPUS:33751116803
SN - 1538-4047
VL - 5
SP - 1206
EP - 1210
JO - Cancer Biology and Therapy
JF - Cancer Biology and Therapy
IS - 9
ER -