The production of a factor X activator by a methylcholanthrene-induced rat fibrosarcoma.

The association between neoplasia and thrombosis has been well documented. We have studied the production of a procoagulant which is a factor X activator in a rat fibrosarcoma model. Extracts of excised tumor were assayed in a one stage clotting assay using normal and factor deficient human plasmas. The activity was not due to tissue factor, as acceleration of clotting was observed in FVII deficient plasma. No activity was noted in FX deficient plasma. The activator was capable of cleaving 125I-FX in the absence or presence of calcium. A radioimmunoassay (RIA) demonstrated a 5,100-fold increase in the levels of FX activation peptide after exposure to sarcoma extract. The FX activation occurs in the absence of calcium although the effect is greatly accelerated in the presence of 5 mM CaCl2. Using a two-stage amidolytic assay, functional activation of FX by the sarcoma was demonstrated. Inhibitor studies suggest that the sarcoma-derived procoagulant is a serine protease. The methylcholanthrene-induced rat sarcoma may serve as a useful model for investigating the regulation and effects of cancer procoagulants.

The effect of interleukin-2 administration on wound healing in adriamycin-treated rats.

Adriamycin (doxorubicin hydrochloride), an effective chemotherapeutic drug, is also a potent inhibitor of wound healing. Conversely, certain polypeptide growth factors are capable of stimulating fibroblasts to secrete collagen, thus enhancing wound healing. The purpose of this study was to determine if interleukin-2 (IL-2), a T-cell growth factor, could reverse the wound healing deficit caused by Adriamycin. Adriamycin treatment caused a significant decrease in wound-breaking strength (P less than 0.005). IL-2 administration increased wound-breaking strength in Adriamycin-treated animals (2126 g vs 1549 g, P less than 0.005). In control animals, IL-2 did not increase wound-breaking strength significantly (2708 g vs 2608 g, P greater than 0.1). Histologically, wounds from Adriamycin-treated animals were less cellular, demonstrated less collagen in the dermis, and a lesser degree of capillary ingrowth. The number of fibroblasts in the dermal layer was increased in animals receiving IL-2. Control rats gained an average of 1.4% of their original body weight, while Adriamycin-treated rats lost an average of 19% of their original body weight (P less than 0.0005). IL-2 administration did not influence weight loss or gain. Hematologically, animals receiving Adriamycin had lower hemoglobin and hematocrit values and higher platelet counts. There were no differences in total white blood cell counts; however, animals receiving Adriamycin showed a predominance of polymorphonuclear leukocytes and a relative decrease in lymphocytes. Animals receiving IL-2 demonstrated a significant eosinophilia. (1) Adriamycin impairs normal wound healing. (2) Interleukin-2 administration improves the wound healing impairment caused by Adriamycin. (3) Interleukin-2 appears to increase infiltration of inflammatory cells, fibroblasts, and capillaries into the wound, which may account for the observed increase in wound breaking strength.