Gerald B. Grindey

Comparison of the antitumor activity of gemcitabine and ara-C in a panel of human breast, colon, lung and pancreatic xenograft models

SummaryGemcitabine is a new deoxycytidine analog that exhibits significant cytotoxicity against a variety of cultured murine and human tumor cells. The cytotoxic action of gemcitabine appears to be due to the inhibition of DNA synthesis by inhibition of ribonucleotide reductase and by competition with dCTP for incorporation into DNA. We have previously shown that gemcitabine, but not cytosine arabinoside (ara-C), has a broad spectrum of antitumor activity against 7 different types of murine solid tumors. The activity of gemcitabine was schedule dependent. To further characterize its activity, gemcitabine was tested against 12 human carcinoma xenografts. When given on an every 3 day × 4 schedule, the following percent inhibitions (at maximally tolerated doses [MTD]; MTD/2) in tumor growth were seen: MX-1 mammary (93%; 80%), CX-1 colon (92%; 82%), HC-1 colon (96%; 92%), GC3 colon (98%; 94%), VRC5 colon (99%; 100%), LX-1 lung (76%; 61%), CALU-6 lung (75%; 38%), NCI-H460 lung (45%; 46%), HS766T pancreatic (73%; not tested), PaCa-2 pancreatic (69%; 40%), PANC-1 pancreatic (70%; 60%), and BxPC-3 pancreatic (9%; 19%). In contrast, only the LX-1 lung carcinoma xenograft was responsive to ara-C treatment, which inhibited tumor growth by a marginal 62 percent. Thus, like its activity against murine solid tumors, gemcitabine has excellent antitumor activity against a broad spectrum of human solid tumors.

Effect of O6-benzylguanine on the sensitivity of human colon tumor xenografts to 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU).

A number of trials were conducted to determine the effect of O6-benzylguanine pretreatment on the sensitivity of human colon tumor xenografts to the antitumor effects of 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU). O6-Benzylguanine has been shown to inactivate the DNA repair protein, O6-alkylguanine-DNA alkyltransferase (AGT), which is primarily responsible for resistance to alkylnitrosoureas including BCNU. Colon tumor xenografts carried in nude mice were analyzed for their AGT content, and tumors with low, intermediate and high levels were chosen for further study. The AGT activity of HC-1, GC-3, VRC-5 and CX-1 human colon tumor xenografts was 16, 113, 180 and 367 fmol/mg protein, respectively. Treatment of mice consisted of vehicle alone, 6.25 to 50 mg/kg BCNU administered alone or BCNU (6.25 to 25 mg/kg) 1 hr after 120 mg/kg O6-benzylguanine on days 7 and 14 post-inoculation. Toxicity studies revealed that pretreatment with O6-benzylguanine increased the toxicity of BCNU, requiring administration of about 4-fold less drug. The growth of the VRC-5 tumor at day 42 post-inoculation was inhibited by 39% following treatment with 12.5 mg/kg BCNU alone and 92% when BCNU was combined with O6-benzylguanine pretreatment. The combination of O6-benzylguanine and BCNU (12.5 mg/kg) at day 42 resulted in an inhibition of HC-1 and CX-1 tumor growth by 84 and 72%, whereas BCNU alone inhibited growth by 54 and 14%, respectively. Therefore, the degree to which the antitumor effect of BCNU was increased by O6-benzylguanine pretreatment was dependent on the AGT activity, with a greater effect in tumors of intermediate or high activity. These data suggest that there is a role for O6-benzylguanine combined with BCNU in the treatment of human colon tumors.

Evaluation of N-(5-indanylsulfonyl)-N′-(4-chlorophenyl)-urea against xenografts of pediatric rhabdomyosarcoma

SummaryN-(5-indanylsulfonyl)-N′-(4-chlorophenyl)-urea (LY186641), a novel anticancer compound, was evaluated against six lines of rhabdomyosarcoma xenografts, each of which was established from tissue biopsies from untreated patients, and additional sublines selected as xenografts for primary resistance to vincristine, melphalan, and ifosfamide. LY186641 was given by oral gavage twice daily for 10 consecutive days or as 5-day courses repeated at 7-day intervals. At the optimal schedule, complete regressions of advanced tumors were obtained in each of the six rhabdomyosarcoma lines. There was no apparent cross-resistance in RMS lines selected for vincristine resistance or against multiple-drug-resistance KB cells in vitro. There was slight cross-resistance in xenografts selected for melphalan resistance, but not in an ifosfamide-resistant line. These results indicate that LY186641 may have significant clinical activity in the treatment of childhood rhabdomyosarcoma.

The role of dietary folate in modulation of folate receptor expression, folylpolyglutamate synthetase activity and the efficacy and toxicity of lometrexol

We have studied the molecular effects of a LFD in a murine model in order to better define the biochemical changes associated with folate deficiency. In addition, we have demonstrated the effect of a LFD on the pharmacokinetic profile and therapeutic activity and toxicity of lometrexol. These studies showed increased density of FR in tumors implanted in LFD mice and a decrease in the affinity of these receptors for folic acid. The results suggest that tumors can compensate for low folate bioavailability by up-regulation of a second FR with slightly lower affinity for folic acid. The higher density of this FR would provide greater capacity for garnering serum folate. FPGS activity increased in several tumors and liver and kidney of LFD mice. The increase in this enzyme activity would result in enhanced polyglutamation of folates and classical antifolates and thus increased cellular retention. Consistent with these changes in liver FPGS, mice injected i.v. with a single dose of lometrexol accumulated significantly more drug in liver and tumors of LFD animals compared to SD mice. Also, higher liver concentrations of lometrexol persisted longer in LFD mice. Polyglutamate analysis showed that longer polyglutamate forms appeared earlier in liver of LFD mice. After 7 days, longer polyglutamyl forms were recovered from liver of LFD mice (octa- and hepta-glutamyl lometrexol) compared to those on SD. A comparison of the efficacy and toxicity of lometrexol in C3H mammary tumor-bearing mice showed that in mice on LFD, lometrexol treatment produced a delayed toxicity with an LD50 of 0.1-0.3 mg/kg, a 3000-fold increase in lethality compared to SD mice. Supplementation of mice with folic acid restored anti-tumor activity and increased the therapeutic dose-range over which efficacy could be assessed. These studies support the use of folic acid supplementation for cancer patients treated with antifolate therapy in order to prevent the biochemical changes in FR and FPGS associated with folate deficiency, prevent delayed toxicity to GARFT inhibitors and enhance the therapeutic potential of this class of drugs.

Dietary folate and folylpolyglutamate synthetase activity in normal and neoplastic murine tissues and human tumor xenografts.

The importance of polyglutamation for the activation of natural folates and classical antifolates and recent evidence for the role of dietary folate as a biochemical modulator of antifolate efficacy led us to investigate the influence of changes in dietary folate on folylpolyglutamate synthetase (FPGS) activity. Activities were measured using lometrexol (6R-5,10-dideazatetrahydrofolic acid) as a substrate for FPGS with extracts of murine tissues, murine tumors, and human tumor xenografts from mice on standard diet or low folate diet. Tissues and tumors from mice on standard diet exhibited a 6-fold range of FPGS activity. Kidney had the lowest activity (36 pmol/hr.mg protein), followed by the human xenograft PANC-1 pancreatic carcinoma (46 pmol/hr.mg protein), liver (109 pmol/hr.mg protein), murine C3H mammary tumor (112 pmol/hr.mg protein), and the human xenograft MX-1 mammary carcinoma (224 pmol/hr.mg protein). In response to restricted dietary folate, four out of five tissues had significantly increased (25-50%) FPGS activity. Only the tumor with highest FPGS activity under standard diet conditions (MX-1 mammary) did not respond to low folate diet. The results indicate that changes in dietary folate intake can modulate FPGS activity significantly in vivo and suggest that the tissue distribution and toxicities of classical antifolates requiring polyglutamation for activation and cellular retention will be influenced significantly by folate status of the host.

Automated measurement of transplantable solid tumors using digital electronic calipers interfaced to a microcomputer

SummaryData collection for transplantable solid tumors has been automated with electronic digital calipers and a balance which have been coupled through an RS-232 interface to a microcomputer. BASIC programs handle data entry, calculations and data storage. A “PROTOCOL” program accepts keyboard input of sample name, notebook number, submitter and dose along with necessary information on tumor system, and then initial animal weights for treatment groups are sent from balance to computer. Data is stored as an ASCII file on floppy disks, and protocol reports are printed. When the test is to be measured, a “PEASURE” program prompts the user for keyboard entry of toxic deaths in each group. Then the computer requests input of width and length of tumors for each animal. These tumor dimensions are sent to microcomputer by pressing a button on the calipers. When a group is completed, final animal weights are sent from balance to microcomputer. Then tumor weights and percent inhibition as compared to appropriate control groups are calculated, and the data is appended to the file for that test. A hard copy is generated as tumors are measured, and reports including percent inhibition can be printed immediately after a test is measured. The data as an ASCII file is transferred via modem to mainframe computer, where another program transfers the information to a database management program. These automated procedures for tumor measurement save time and lessen the chance for error by eliminating manual recording of solid tumor dimensions and subsequent reentry of this data for calculation.

Increased intracellular Ca2+ signaling caused by the antitumor agent helenalin and its analogues

The antitumor sesquiterpene lactone helenalin, which is found in species of the plant genusHelenium, cause a marked potentiation of the increases in intracellular free Ca2+ concentration ([Ca2+]i) produced by mitogens such as vasopressin, bradykinin, and platelet-derived growth factor in Swiss mouse 3T3 fibroblasts. Removing external Ca2+ partly attenuated the increased [Ca2+]i response. caused by helenalin. The increased [Ca2+]i responses occurred at concentrations of helenalin that inhibited cell proliferation. At higher concentrations, helenalin inhibited the [Ca2+]i responses. No change in resting [Ca2+]i was caused by helenalin even at high concentrations. Other helenalin analogues also increased the [Ca2+]i response. Helenalin did not inhibit protein kinase C (PKC) and PKC appeared to play a minor role in the effects of helenalin on [Ca2+]i responses in intact cells. Studies with saponin-permeabilized HT-29 human colon carcinosarcoma cells indicated that helenalin caused an increased accumulation of Ca2+ into nonmitochondrial stores and that the potentiating effect of helenalin on mitogen-stimulated [Ca2+]i responses was due in part to an increase in the inositol-(1,4,5)-trisphosphate-mediated release of Ca2+ from these stores.

Synthesis and biological activity of nor- and homo-5,10-dideazatetrahydrofolic acid

Abstract A palladium(0)-catalyzed Heck coupling reaction was used in the synthesis of nor- and homo-DDATHF which are close analogs of the potent glycinamide ribonucleotide formyltransferase inhibitor, 5,10-dideazatetrahydrofolic acid (DDATHF).

Discovery of anticancer agents from natural products

AbstractCellular in vitro assays have been both developed and employed by us to search for new, solid tumor specific anticancer agents. Parallel in vivo models are then used to assess the therapeutic efficacy of candidates selected by the in vitro assays. During the past 4 years, extracts as well as pure compounds from natural products have been obtained from collaborators at the University of Hawaii and Lilly Research Laboratories. The samples have been analyzed, the structures identified and a number of lead compounds proposed

Synthesis and biological evaluation of a new series of dihydrofolate reductase inhibitors based on the 4-(2,6-diamino-5-pyrimidinyl)alkyl-L-glutamic acid structure

Abstract A novel series of dihydrofolate reductase inhibitors was uncovered during an expansion of the SAR of 5,10-dideazatetrahydrofolic acid, and their biological activity was evaluated. These new analogs do not possess an oxygen at the 4 position and contain a monocyclic pyrimidine ring.