Minenori Ibata scite author profile

Tumor cell expansion relies on nutrient supply, and oxygen limitation is central in controlling neovascularization and tumor spread. Monocytes infiltrate into tumors from the circulation along defined chemotactic gradients, differentiate into tumor-associated macrophages (TAMs), and then accumulate in the hypoxic areas. Elevated TAM density in some regions or overall TAM numbers are correlated with increased tumor angiogenesis and a reduced host survival in the case of various types of tumors. To evaluate the role of TAMs in tumor growth, we here specifically eliminated TAMs by in vivo application of dichloromethylene diphosphonate (DMDP)-containing liposomes to mice bearing various types of tumors (e.g., B16 melanoma, KLN205 squamous cell carcinoma, and 3LL Lewis lung cancer), all of which grew in the dermis of syngeneic mouse skin. When DMDP-liposomes were injected into four spots to surround the tumor on day 0 or 5 after tumor injection and every third day thereafter, both the induction of TAMs and the tumor growth were suppressed in a dose-dependent and injection number-dependent manner; and unexpectedly, the tumor cells were rejected by 12 injections of three times-diluted DMDP-liposomes. The absence of TAMs in turn induced the invasion of inflammatory cells into or around the tumors; and the major population of effector cells cytotoxic against the target tumor cells were CD11b(+) monocytic macrophages, but not CCR3(+) eosinophils or Gr-1(+) neutrophils. These results indicate that both the absence of TAMs and invasion of CD11b(+) monocytic macrophages resulted in the tumor rejection.

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Transgene number-dependent, gene expression rate-independent rejection of Dd-, Kd-, or DdKd-transgened mouse skin or tumor cells from C57BL/6 (DbKb) mice

Inoué

Tashiro-Yamaji²,

Hayashi

et al. 2011

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Recipient cells migrating into the transplantation site of an allograft recognize histocompatibility antigens on the grafts and are cytotoxic against the grafts. Although the alloreactive immune response is predominantly directed at the major histocompatibility complex (major histocompatibility complex [MHC]; H‐2 in mice) class I molecules, the basic mechanisms of allograft rejection (e.g., ligand‐receptor interaction) remain unclear, because of the polymorphism and complexity of the MHC. To examine the role of MHC class I molecules in allograft rejection, Dd, Kd or DdKd‐transgenic skin or tumor cells we established on a C57BL/6 (DbKb) background and transplanted into C57BL/6 mice. Skin grafts from allogeneic (i.e., BALB/c, B10.D2, and BDF1) strains of mice were rejected from C57BL/6 mice on days 12–14 after grafting, whereas isografts were tolerated by these mice. Unexpectedly, skin grafts from Dd‐, Kd‐, and DdKd‐transgenic C57BL/6 mice were rejected on days 12–14 in a transgene expression rate‐independent manner from 9/19 (47%), 20/39 (51%), and 12/17 (71%) of C57BL/6 mice, respectively. Similarly, intradermally transplanted allogeneic (i.e., Meth A), but not syngeneic (i.e., EL‐4), tumor cells were rejected from C57BL/6 mice; the growth of Dd‐ or Kd‐transfected EL‐4 cells was delayed by 10–13 days; and 4/10 (40%) of DdKd‐transfected tumor cells were rejected from C57BL/6 mice. These results indicate that Dd and Kd genes are equivalent as allogeneic MHC class I genes and that C57BL/6 (DbKb) mice reject Dd‐, Kd‐, or DdKd‐transgened skin or tumor cells in a transgene number‐dependent, gene expression rate‐independent manner.

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Spontaneous rejection of intradermally transplanted non‐engineered tumor cells by neutrophils and macrophages from syngeneic strains of mice

Ibata

Takahashi²,

Shimizu³

et al. 2011

Microbiology and Immunology

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Blood Supply--Susceptible Formation of Melanin Pigment in Hair Bulb Melanocytes of Mice

Maeda¹,

Ueda

Yamana

et al. 2015

Plastic and Reconstructive Surgery - Global Open

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Background:Allogeneic skin grafts onto C57BL/6 mice are rejected, and the rejected skin is replaced by surrounding skin with black hair. In contrast, syngeneic skin grafts are tolerated, and gray hair grows on the grafts.Methods:To explore the mechanism of gray hair growing on the tolerated skin grafts, we prepared full-thickness skin (2-cm square) autografts, 2 (2 cm + 2 cm) horizontal or vertical parallel incisions, and U-shaped (2 cm × 2 cm × 2 cm) flaps with or without pedicle vessels. The grafts, incisions, and flaps were fixed by suturing with string and protected by a transparent bandage. On day 14 after the operation, the bandages were removed to observe the color of the hair growing on the skin.Results:Skin autografts from wild-type or hepatocyte growth factor-transgenic (Tg) C57BL/6 mice survived with gray hair, whereas those from steel factor (Kitl)-Tg C57BL/6 mice survived with black hair. In addition, U-shaped flaps lacking both of the 2 main feeding vessels of wild-type mice had gray hair at the tip of the flaps. Light microscopy after staining with hematoxylin and eosin or dihydroxyphenylalanine showed that the formation of melanin pigment in the follicles, but not in the interadnexal skin, was susceptible to the blood supply.Conclusions:Melanin pigment formation in the hair bulb melanocytes appeared to be susceptible to the blood supply, and melanocytosis was promoted in the follicles and in the epidermis of Kitl-Tg C57BL/6 mice.

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Minenori Ibata

HLA-B62 as a possible ligand for the human homologue of mouse macrophage MHC receptor 2 (MMR2) on monocytes

Rejection of intradermally injected syngeneic tumor cells from mice by specific elimination of tumor-associated macrophages with liposome-encapsulated dichloromethylene diphosphonate, followed by induction of CD11b+/CCR3−/Gr-1− cells cytotoxic against the tumor cells

Transgene number-dependent, gene expression rate-independent rejection of Dd-, Kd-, or DdKd-transgened mouse skin or tumor cells from C57BL/6 (DbKb) mice

Spontaneous rejection of intradermally transplanted non‐engineered tumor cells by neutrophils and macrophages from syngeneic strains of mice

Blood Supply--Susceptible Formation of Melanin Pigment in Hair Bulb Melanocytes of Mice

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