Setsuko Kunimoto

Absolute configuration of kigamicins A, C and D.

AbstractThe stereochemistry of kigamicins A (1), C (2) and D (3) were elucidated by a combination of X-ray crystallographic analysis and degradation studies. The absolute structures of kigamicins thus determined were depicted as shown in Fig. 2.

Inhibitors of insulin-like growth factor-1 receptor tyrosine kinase are preferentially cytotoxic to nutrient-deprived pancreatic cancer cells

Chronic deprivation of nutrients is rare in normal tissues, however large areas of tumor are nutrient-starved and hypoxic due to a disorganized vascular system. Some cancers show an inherent ability to tolerate severe growth conditions. Therefore, we screened chemical compounds to identify cytotoxic agents that function preferentially in nutrient-deprived conditions. We found that AG1024, a specific inhibitor of insulin-like growth factor-1 receptor tyrosine kinase (IGF-1R), showed preferential cytotoxicity to human pancreatic cancer cells in nutrient-deprived conditions relative to cells in nutrient-sufficient conditions. The cytotoxicity of I-OMe-AG538 (another specific inhibitor of IGF-1R kinase) was also enhanced in nutrient-deprived cells. In addition, AG1024 and I-OMe-AG538 potently inhibited IGF-1R activation to nutrient-deprived cells. In contrast, conventional chemotherapeutic drugs, as well as inhibitors of PDGFR and EGFR kinases, elicited weak cytotoxicity. These data indicate that nutrient-deprived human pancreatic cancer cells have increased sensitivity to inhibition of IGF-1R activation. IGF-1R inhibitors offer a promising strategy for anticancer therapeutic approaches that are oriented toward tumor microenvironment.

Antitumor Effect of Kigamicin D on Mouse Tumor Models

Kigamicin D is a novel anticancer agent that was identified using a new screening strategy that targets the tolerance of cancer cells to nutrient starvation [1, 2]. Oral administration of kigamicin D was previously described to show a strong antitumor effect in human tumor xenograft models of pancreatic tumors [2]. In this paper we describe that kigamicin D shows the same selective cytotoxicity against normal human cells such as lung fibroblast and prostate stromal cells under nutrient starved condition as against cancer cells. Kigamicin D inhibited tumor cell-induced angiogenesis in a dorsal air sac assay. On the basis of these results we tested other human tumor xenograft models and transplantable syngeneic tumor models in order to determine the spectrum of activity of kigamicin D against various cancers. Kigamicin D showed a weak antitumor effect against LX-1 and DMS-273 lung cancers, but had no effect on DLD-1 colon cancers. When tested against syngeneic tumors, kigamicin D showed a weak antitumor effect against colon26, but showed augmentation of tumor growth on IMC carcinoma at a broad dosage level. Kigamicin D does not show good antitumor activity against human xenograft tumors except pancreatic tumors and murine syngeneic tumors. We found that kigamicin D has excellent antitumor effect specific to pancreatic cancers. Surprisingly, high dosage of kigamicin D increased tumor growth of IMC carcinoma by than 200%. The phenomenon suggests that kigamicin D may cause some immunological response to the tumor.

Augmentation of Cellular Immunity by Kigamicin D

Kigamicin D did not show any immunosuppressive activity in mixed lymphocyte culture reaction and mitogen induced lymphocyte blastogenesis in vitro and graft versus host reaction in vivo. Natural killer cell activity in spleen cells was not affected by oral administration of kigamicin D. Instead, delayed-type hypersensitivity response to sheep red blood cells was stimulated at a broad dosage level. It is concluded that kigamicin D increases cellular immunity to specific antigen.