| Reference | [1]. Cancer Res. 1991 Apr 15;51(8):1979-83.<br />
Preclinical antitumor activity of penclomedine in mice: cross-resistance, schedule dependence, and oral activity against tumor xenografts in brain.<br />
Harrison SD Jr(1), Plowman J, Dykes DJ, Waud WR, Griswold DP Jr.<br />
Author information: (1)Southern Research Institute, Birmingham, Alabama 35255.<br />
Penclomedine is 3,5-dichloro-2,4-dimethoxy-6-(trichloromethyl)pyridine (NSC 338720), an alpha-picoline derivative with p.o. antitumor activity in preclinical leukemia and solid tumor models. Described here are an in vivo cross-resistance profile of penclomedine, treatment schedule dependence studies, and studies exploring the effects of p.o. drug on human tumors xenografted into mouse brain. The latter studies exploited the apparent facile distribution of penclomedine to the central nervous system. Tumor models used included murine leukemia lines selected in vivo for acquired resistance to various antitumor drugs and the human mammary and lung tumor xenografts MX-1 and H82, respectively. The therapeutic effects of p.o. penclomedine against s.c. MX-1 and H82 xenografts were shown to be independent of treatment schedule. Therapeutic activity was comparable when p.o. and parenteral treatments were compared. Lines of P388 leukemia resistant to melphalan, cyclophosphamide, and carmustine were cross-resistant to penclomedine in vivo. Leukemia lines resistant to antimetabolites, DNA binders/intercalators, and vincristine were not cross-resistant to penclomedine. Intracerebrally implanted MX-1 xenografts retained their sensitivity to p.o. penclomedine, and therapeutic activity was at least comparable to that of carmustine, a drug known for its ability to cross the blood-brain barrier. These results demonstrate attributes of penclomedine that are relatively uncommon among currently available antitumor drugs and that are of interest for the anticipated clinical development of this drug.<br />
PMID: 2009516<br />
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[2]. Clin Cancer Res. 1996 Jun;2(6):953-62.<br />
Murine and human in vivo penclomedine metabolism.<br />
Hartman NR(1), O'Reilly S, Rowinsky EK, Collins JM, Strong JM.<br />
Author information: (1)Division of Clinical Pharmacology Research, Office of Testing and Research, Center for Drug Evaluation and Research, Food and Drug Administration, Laurel, Maryland 20708.<br />
Penclomedine is a multichlorinated alpha-picoline derivative which has shown prominent activity in murine breast cancer models and is currently undergoing clinical development. Previous in vitro research has identified several penclomedine metabolites. In this study, human and murine in vivo penclomedine metabolism was examined. Upon i.v. administration to mice, no penclomedine was detectable in plasma at time points as early as 1 h postinfusion. The principle metabolite was demethyl-penclomedine [3, 5-dichloro-2-methoxy-4-hydroxy-6-(trichloromethyl)pyridine]. Both penclomedine and demethyl-penclomedine could be recovered from tissues. Greater than 60% of the penclomedine dose remaining in the body at 22 h was indelibly bound to tissue and plasma proteins. Urinary metabolites of penclomedine consisted mainly of penclomic acid and additional polar metabolites. The results obtained after p. o. administration were nearly identical to i.v. administration with respect to the extent, level, and type of metabolites found in the plasma, tissues, and urine and with respect to the extent of protein binding. In human subjects administered penclomedine daily for 5 consecutive days, demethyl-penclomedine could be detected in plasma and accumulated with successive doses of penclomedine, reaching peak plasma concentrations of up to 10 times that of penclomedine itself and plasma exposures of nearly 400 times that of the parent drug. It appears that patients eliminate penclomedine largely through metabolism and that this drug may be amenable to p.o. administration.<br />
PMID: 9816256<br />
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[3]. Br J Cancer. 1998 Mar;77(5):808-11. doi: 10.1038/bjc.1998.131.<br />
Dose-limiting neurotoxicity in a phase I study of penclomedine (NSC 388720, CRC 88-04), a synthetic alpha-picoline derivative, administered intravenously.<br />
Jodrell DI(1), Bowman A, Stewart M, Dunlop N, French R, MacLellan A, Cummings J, Smyth JF.<br />
Author information: (1)ICRF Medical Oncology Unit, Western General Hospital, Edinburgh.<br />
3,5-Dichloro-2,4-dimethoxy-6-(trichloromethyl)pyridine (penclomedine, NSC 338720, CRC 88-04) is an alpha-picoline derivative with anti-tumour activity in preclinical models. Penclomedine administration by 1-h intravenous infusion on 5 consecutive days was repeated 3 weekly in the absence of dose-limiting toxicity (DLT) or disease progression. Five dose levels were investigated (22.5-340 mg m(-2) day[-1]). Eight men and eight women were entered, median age 59 years (range 39-73 years), with good performance status (ECOG 0/1) in 11 patients. A total of 13 out of 16 patients had received previous chemotherapy. Common toxicity criteria grade (CTCg) II vomiting was recorded at all dose levels. Neurotoxicity (cerebellar ataxia and dizziness) was the DLT, CTCg III toxicity occurring in three out of three patients treated at 340 mg m(-2) day(-1). CTCg III dizziness was noted in one out of three patients at 250 mg m(-2) day(-1). Neurotoxicity developed during the 1-h infusion and persisted for a variable period (maximum 5 h) after infusion. Prophylactic antiemetic drugs appeared to reduce associated vomiting but did not prevent ataxia. No antiproliferative toxicities were noted and no anti-tumour responses were documented. Penclomedine pharmacokinetic studies confirmed preclinical evidence of extensive apparent distribution (93 l m[-2]) and rapid clearance (41 l h[-1] m[-2]). Purkinje cell loss has been identified in preclinical models after intraperitoneal administration (O'Reilly et al, 1996a) and further clinical development of penclomedine will focus on oral administration.<br />
DOI: 10.1038/bjc.1998.131 PMCID: PMC2149952 PMID: 9514062<br />
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[4]. Cancer Res. 1992 May 15;52(10):2830-4.<br />
Murine pharmacokinetics and metabolism of penclomedine [3,5-dichloro-2,4-dimethoxy-6-(trichloromethyl)pyridine, NSC 338720].<br />
Reid JM(1), Mathiesen DA, Benson LM, Kuffel MJ, Ames MM.<br />
Author information: (1)Mayo Clinic and Foundation, Department of Oncology, Rochester, Minnesota 55905.<br />
Penclomedine, a highly substituted pyridine derivative, has been selected by the National Cancer Institute for evaluation as a potential anticancer agent based on antitumor activity observed in murine tumor models following i.v., p.o., and i.p. administration. We have developed a reverse-phase high performance liquid chromatography assay for PEN, and subsequently investigated murine pharmacokinetics and metabolism. Following rapid i.v. injection of PEN (300 mg/m2) to mice, plasma elimination was best described by a 2-compartment open model with an elimination phase half-life, total body clearance, and steady-state distribution volume of 69 min, 114 ml/min/m2, and 4800 ml/m2, respectively. While PEN displayed good p.o. absorption, bioavailability of PEN after p.o. administration was approximately 2% of that observed following i.v. administration. Metabolism contributed substantially to drug clearance, and total metabolites were slowly eliminated from plasma. After i.v. and p.o. administration of radiolabeled PEN, less than 0.2% of the parent drug was excreted in the 48-h urine, and 25-30% of the total radioactivity was recovered in urine. NADPH-dependent oxidative and reductive metabolism was observed when penclomedine was incubated with mouse microsomal preparations. Microsomal reductive metabolism of PEN led to formation of a metabolite tentatively identified as a molecule formed by dimerization of the radical species produced by cleavage of chlorine from the trichloromethyl moiety of penclomedine.<br />
PMID: 1581896
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