Novel SN-38-incorporated polymeric micelle, NK012, strongly suppresses renal cancer progression.

It has been recently reported that NK012, a 7-ethyl-10-hydroxy-camptothecin (SN-38)-releasing nanodevice, markedly enhances the antitumor activity of SN-38, especially in hypervascular tumors through the enhanced permeability and retention effect. Renal cell carcinoma (RCC) is a typical hypervascular tumor with an irregular vascular architecture. We therefore investigated the antitumor activity of NK012 in a hypervascular tumor model from RCC. Immunohistochemical examination revealed that Renca tumors contained much more CD34-positive neovessels than SKRC-49 tumors. Compared with CPT-11, NK012 had significant antitumor activity against both bulky Renca and SKRC-49 tumors. Notably, NK012 eradicated rapid-growing Renca tumors in 6 of 10 mice, whereas it failed to eradicate SKRC-49 tumors. In the pulmonary metastasis treatment model, an enhanced and prolonged distribution of free SN-38 was observed in metastatic lung tissues but not in nonmetastatic lung tissues after NK012 administration. NK012 treatment resulted in a significant decrease in metastatic nodule number and was of benefit to survival. Our study shows the outstanding advantage of polymeric micelle-based drug carriers and suggests that NK012 would be effective in treating disseminated RCCs with irregular vascular architectures.

[1]  H. Ueno,et al.  A phase I and pharmacokinetic study of NK105, a paclitaxel-incorporating micellar nanoparticle formulation , 2007, British Journal of Cancer.

[2]  T. Onda,et al.  Novel SN-38-incorporating polymeric micelles, NK012, eradicate vascular endothelial growth factor-secreting bulky tumors. , 2006, Cancer research.

[3]  D. Hicklin,et al.  Vascular endothelial growth factor overexpression by soft tissue sarcoma cells: implications for tumor growth, metastasis, and chemoresistance. , 2006, Cancer research.

[4]  H. Ueno,et al.  Phase I clinical trial and pharmacokinetic evaluation of NK911, a micelle-encapsulated doxorubicin , 2004, British Journal of Cancer.

[5]  M. Milowsky,et al.  Active chemotherapy for sarcomatoid and rapidly progressing renal cell carcinoma , 2004, Cancer.

[6]  N. Saijo,et al.  Antitumor activity of TZT‐1027 (Soblidotin) against vascular endothelial growth factor‐secreting human lung cancer in vivo , 2003, Cancer science.

[7]  Jun Fang,et al.  Vascular permeability enhancement in solid tumor: various factors, mechanisms involved and its implications. , 2003, International immunopharmacology.

[8]  H. Maeda,et al.  Identification of bradykinin receptors in clinical cancer specimens and murine tumor tissues , 2002, International journal of cancer.

[9]  K. Kataoka,et al.  Block copolymer micelles for drug delivery: design, characterization and biological significance. , 2001, Advanced drug delivery reviews.

[10]  B. Rini,et al.  Phase II trial of weekly intravenous gemcitabine with continuous infusion fluorouracil in patients with metastatic renal cell cancer. , 2000, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[11]  Xiaoen Wang,et al.  Development of a high metastatic orthotopic model of human renal cell carcinoma in nude mice: benefits of fragment implantation compared to cell-suspension injection , 1999, Clinical & Experimental Metastasis.

[12]  L. Ellis,et al.  Expression of vascular endothelial growth factor and its receptor, KDR, correlates with vascularity, metastasis, and proliferation of human colon cancer. , 1995, Cancer research.

[13]  A. Harris,et al.  Clinical importance of the determination of tumor angiogenesis in breast carcinoma: much more than a new prognostic tool. , 1995, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[14]  C. Cohen,et al.  Tumor angiogenesis as a prognostic factor in oral cavity tumors. , 1994, American journal of surgery.

[15]  Tetsurou Yamamoto,et al.  Kinin‐generating Cascade in Advanced Cancer Patients and in vitro Study , 1991, Japanese journal of cancer research : Gann.

[16]  S. Skinner,et al.  Microvascular architecture of experimental colon tumors in the rat. , 1990, Cancer research.

[17]  T. Okano,et al.  Characterization and anticancer activity of the micelle-forming polymeric anticancer drug adriamycin-conjugated poly(ethylene glycol)-poly(aspartic acid) block copolymer. , 1990, Cancer research.

[18]  Tohru Takahashi,et al.  Medial regression and its functional significance in tumor‐supplying host arteries. A morphometric study of hepatic arteries in human livers with hepatocellular carcinoma , 1987, Cancer.

[19]  H. Maeda,et al.  A new concept for macromolecular therapeutics in cancer chemotherapy: mechanism of tumoritropic accumulation of proteins and the antitumor agent smancs. , 1986, Cancer research.

[20]  Robert M. Hoffman,et al.  Orthotopic Metastatic Mouse Models for Anticancer Drug Discovery and Evaluation: a Bridge to the Clinic , 2004, Investigational New Drugs.