Ronald L. Merriman

Inhibition of protein kinase C by calphostin C is light-dependent

Calphostin C, a secondary metabolite of the fungus Cladosporium cladosporioides, inhibits protein kinase C by competing at the binding site for diacylglycerol and phorbol esters. Calphostin C is a polycyclic hydrocarbon with strong absorbance in the visible and ultraviolet ranges. In characterizing the activity of this compound, we unexpectedly found that the inhibition of [3H]phorbol dibutyrate binding was dependent on exposure to light. Ordinary fluorescent light was sufficient for full activation. The inhibition of protein kinase C activity in cell-free systems and intact cells also required light. Light-dependent cytotoxicity was seen at concentrations about 5-fold higher than those inhibiting protein kinase C.

NCM460, a normal human colon mucosal epithelial cell line.

Dear Editor: Many studies of human intestinal physiology and pathology would be augmented with the development of normal human cell lines (1,2). These include investigations of transport, drug delivery, infectious disease, and other processes. Developing normal human cell lines is particularly important for colon cancer where malignant cell lines (8) have dominated the in vitro studies. This has been true because of the lack of easily propagated normal cell lines, even though it has been wellrecognized from detailed genetic analyses of in situ tissues (10) that genetic and other changes in colon cancer progression are complex anti might hest be sludied with more appropriate models. To thai end, we (9) have recently reported on two normal cell lines which were derived from patients with colon cancer. Although they were verified by the pathologist as histologically normal areas of mucosa taken from the wide margins of surgical resection and are of epithelial origin, they display a subset of potentially premalignant features when grown in vitro. Thus, the continued development of additional normal colon mucosa (NCM) cell lines is still of great value. To that end, the NCM460 cell line was initiated and propagated by methods detailed elsewhere (4-7). The patient donor for the source t issue was a 68-year-old Hispanic male, who underwent a partial gastrectomy for removal of a poorly differentiated gastric tu-

Development and characterization of normal colonic epithelial cell lines derived from normal mucosa of patients with colon cancer

BACKGROUND Researchers have tried for at least 20 years to develop a normal human colonic cell line suitable for in vitro studies of human colonic diseases. We report a breakthrough development of two normal colon-derived cell lines. They are designated NCM356 and NCM425. MATERIALS AND METHODS The cells were collected from the histologically normal colonic margin of patients undergoing resection for colon adenocarcinomas and grown in culture. RESULTS Since NCM356 and NCM425 have now been subcultured 22 and 19 times, each has undergone more than 40 population doublings. Neither cell line has shown evidence of terminal differentiation. Immunohistochemical characterization studies demonstrated that they are epithelial cells. They variably expressed subsets of other markers, including tumor markers, but did not grow in soft agar. NCM356 did not form tumors, whereas NCM425 was tumorigenic in immunodeficient mice. CONCLUSION These two cell lines represent the first successful in vitro culture of human colonocytes derived from normal mucosa. NCM356 is closer to normal, but seems to represent an early stage of cell transformation, possibly correlated with immortalization. In contrast, in vitro culture of the NCM425 cell line appears to have selected for later progression to malignancy. These lines are important resources for studying colon cancer and the physiology of intestinal cells.

Correlation of the in vivo anticoagulant, antithrombotic, and antimetastatic efficacy of warfarin in the rat

Fibrin formation has been hypothesized to be an element of the metastatic process in cancer, and pharmacological interference with such fibrin formation has been proposed as a means of antimetastatic therapy. We have tested this hypothesis through an in vivo study of warfarin in two independent rat disease models--a model of chemical-injury-induced arterial thrombosis, and a model of spontaneous metastasis. We found 0.50 mg/kg-day warfarin to be uniformly lethal after two weeks treatment. The chronic dose of 0.25 mg/kg-day was non-toxic and produced effective anticoagulation and marked antithrombotic and antimetastatic activity. The 0.125 mg/kg-day dose produced a reduction in factor IIc (50%) and factor VIIc (70%), and resulted in statistically significant antithrombotic and antimetastatic activity. The 0.0625 mg/kg-day dose failed to reduce the vitamin K-dependent clotting factors, and failed to produce any antithrombotic or antimetastatic effects. The substantial correlation (very similar dose-response effects) among the anticoagulant, antithrombotic and antimetastatic efficacies of warfarin in the rat suggests that anticoagulation provides the pharmacological mechanism underlying both the antithrombotic and the antimetastatic effects. The poor therapeutic index we observed in the rat may be the attribute which limits the efficacy of warfarin in the treatment of human cancer.

Inhibitory Effect of Warfarin on the Metastasis of the PAIII Prostatic Adenocarcinoma in the Rat

The PAIII rodent metastatic prostatic adenocarcinoma model was employed to evaluate the effects of dietary warfarin, a prototypic antagonist of thrombin generation on the lymphatic and pulmonary metastases of the tumor from the tail site of subcutaneous transplantation in male Lobund Wistar (LW) rats. In addition, the anticoagulant effects of warfarin were determined in the same animals. Warfarin, administered in the diet at concentrations equivalent to 0.063, 0.125 or 0.250 mg./kg. b.w. for 30 days had no effect on final body weight, gluteal or iliac lymph node weights. Significant (p less than 0.05) dose-dependent extensions of whole blood prothrombin (WBPT), activated partial thromboplastin (WBAPTT) and clotting times (WBCT) over control values were observed with warfarin treatment. Preliminary studies demonstrated that the 0.500 mg./kg. dose produced 50 per cent mortality at +14 days. Warfarin produced significant (p less than 0.05) dose-dependent decreases in the number of PAIII pulmonary metastases as indicated by reductions in dry lung weights and lung colony numbers when compared to untreated tumor-bearing controls. While the therapeutic index of warfarin is a limiting factor in clinical use as an antimetastatic agent, these results suggest that compounds capable of altering hemostatic mechanisms may be potential inhibitors of tumor metastasis. The PAIII prostatic adenocarcinoma model may be a useful system to quantitatively evaluate potential antimetastatic and cytotoxic agents.

Studies on the mechanism of sulofenur and LY295501 toxicity: effect on the regulation of cytosolic calcium in relation to cytotoxicity in normal and tumorigenic rat kidney cell lines

Treatment of NRK-52E (normal) and H/1.2-NRK-52E (Harvey-ras transfected NRK-52E) rat kidney epithelial-like cells with two Eli Lilly antitumor compounds, sulofenur and LY295501 (15.6 microM-1000 microM) resulted in concentration- and time-dependent cell killing. Cytosolic Ca2+ became elevated in both cell lines in the presence of extracellular Ca2+ but only minimally in its absence. Both drugs were more toxic to the tumorigenic cells than to the normal cells, but LY295501 was significantly more toxic to both cells. The similarity in toxic response by both cell lines suggests a similar mechanism of toxic action for both drugs. Since LY295501 is highly toxic to tumorigenic cells but has a manageable dose-limiting toxicity it shows excellent potential for use in chemotherapy.

H-ras-transformed NRK-52E renal epithelial cells have altered growth, morphology, and cytoskeletal structure that correlates with renal cell carcinoma in vivo

SummaryWe studied the effect of the ras oncogene on the growth kinetics, morphology, cytoskeletal structure, and tumorigenicity of the widely used NRK-52E rat kidney epithelial cell line and two H-ras oncogene-transformed cell lines, H/1.2-NRK-52E (H/1.2) and H/6.1-NRK-52E (H/6.1). Population doubling times of NRK-52E, H/1.2, and H/6.1 cells were 28, 26, and 24 h, respectively, with the transformed cells reaching higher saturation densities than the parent cells. NRK-52E cells had typical epithelial morphology with growth in colonies. H/1.2 and H/6.1 cell colonies were more closely packed, highly condensed, and had increased plasma membrane ruffling compared to parent cell colonies. NRK-52E cells showed microfilament, microtubule, and intermediate filament networks typical of epithelial cells, while H/1.2 and H/6.1 cells showed altered cytoskeleton architecture, with decreased stress fibers and increased microtubule and intermediate filament staining at the microtubule organizing center. H/1.2 and H/6.1 cells proliferated in an in vitro soft agar transformation assay, indicating anchorage-independence, and rapidly formed tumors in vivo with characteristics of renal cell carcinoma, including mixed populations of sarcomatoid, granular, and clear cells, H/6.1 cells consistently showed more extensive alterations of growth kinetics, morphology, and cytoskeleton than H/1.2 cells, and formed tumors of a more aggressive phenotype. These data suggest that analysis of renal cell characteristics in vitro may have potential in predicting tumor behavior in vivo, and significantly contribute to the utility of these cell lines as in vitro models for examining renal epithelial cell biology and the role of the ras proto-oncogene in signal transduction involving the cytoskeleton.

Inhibition of PAIII Rat Prostatic Adenocarcinoma Growth and Metastasis by a New Diarylsulfonylurea Antitumor Agent, LY181984

LY181984 is a compound in a series of orally active diarylsulfonylureas with broad spectrum in vivo activity against syngeneic rodent and human xenograft tumor models. The PAIII rat prostatic adenocarcinoma model was used to evaluate the effects of this antitumor agent on the lymphatic and pulmonary metastasis of the tumor in male Lobund Wistar rats. LY181984 was inactive against the proliferation of PAIII cells in vitro. Following subcutaneous implantation of 10(6) PAIII cells in the tail, oral administration of LY181984 (25.0, 50.0, or 100.0 mg./kg./day) for 30 days had no significant effects on body weight gain. LY181984 treatment produced significant (p less than 0.05) dose-dependent inhibition of primary tumor growth in the tail (max. inhibition = 46% from untreated control levels). In these same animals, LY181984 administration produced significant (p less than 0.05) dose-dependent inhibiton of PAIII metastasis from the primary tumor in the tail to the gluteal and iliac lymph nodes (maximal responses = 79% and 80% from control values, respectively). PAIII metastasis to the lungs was significantly inhibited by oral LY181984 treatment. Numbers of pulmonary foci in PAIII-bearing rats were significantly (p less than 0.05) reduced by LY181984 administration in a dose-dependent manner (maximal reduction = 78% from control values). While the non-toxic doses (less than 100.0 mg./kg./day for 28 days) of LY181984 produced marked decreases in tumor growth and metastasis, administration of the compound had no effect on the survival of PAIII-bearing rats. These data support the contention that LY181984 represents a new class of orally active antitumor and antimetastatic agents with potential efficacy in the treatment of hormone-insensitive prostatic cancer. Further studies are needed to define maximal efficacy of LY181984 and other sulfonylurea agents in urogenital solid tumor animal models.