Chloroquinoxaline sulfonamide: a sulfanilamide antitumor agent entering clinical trials.

Chloroquinoxaline sulfonamide (CQS) has been developed to the clinical trial stage based on its activity in the Human Tumor Colony Forming Assay (HTCFA). In the HTCFA, CQS demonstrated inhibition of colony formation against breast, lung, melanoma and ovarian carcinomas. The mechanism of action of CQS is unknown.

L-histidinol: preclinical therapeutic studies in combination with antitumor agents and pharmacokinetic studies in mice.

Therapeutic studies were conducted with L-histidinol, in combination with cyclophosphamide, bischloroethylnitrosourea, 5-fluorouracil, phenylalanine mustard, or cis-platinum(II)diammine dichloride, in several transplantable tumors in mice. These tumor types included murine L1210 P388 leukemias, M5076 sarcoma, mammary 16/C adenocarcinoma, human LOX melanoma, and colon HT-29 adenocarcinoma. Therapeutic benefits of adding L-histidinol to a regimen, compared to the regimen alone, were marginal.

Cyclopentenyl cytosine: interspecies predictions based on rodent plasma and urine kinetics.

A hybrid compartmental-physiological model for cyclopentenyl cytosine (CPE-C) is designed on the basis of early limited rodent pharmacokinetic data. Application of model independent pharmacokinetics and biochemical knowledge was first used to conceptualize such a model. The approach was to scale the physiological parameters of the model (compartmental clearances) and keep constant the anatomic parameters of the model (compartment volumes).

Could interspecies differences in the protein binding of flavone acetic acid contribute to the failure to predict lack of efficacy in patients?

We investigated the differences in plasma protein binding of flavone acetic acid (FAA) in mice and men in an attempt to explain the inter-species differences in response. In vitro data indicate both qualitative and quantitative differences in FAA protein binding: approximately 80% is bound in humans, with two different types of binding site identified; in mice, 70% is bound and only one binding site could be described. Protein binding is dose-dependent in both species.

Augmentation of natural killer activity, induction of IFN and development tumor immunity during the successful treatment of established murine renal cancer using flavone acetic acid and IL-2.

The investigational drug flavone acetic acid (FAA) has been previously shown to systemically augment NK activity in vivo in normal mice within 24 h of i.p. or i.