Angela Colmone scite author profile

The host tissue microenvironment influences malignant cell proliferation and metastasis, but little is known about how tumor-induced changes in the microenvironment affect benign cellular ecosystems. Applying dynamic in vivo imaging to a mouse model, we show that leukemic cell growth disrupts normal hematopoietic progenitor cell (HPC) bone marrow niches and creates abnormal microenvironments that sequester transplanted human CD34 + (HPC-enriched) cells. CD34 + cells in leukemic mice declined in number over time and failed to mobilize into the peripheral circulation in response to cytokine stimulation. Neutralization of stem cell factor (SCF) secreted by leukemic cells inhibited CD34 + cell migration into malignant niches, normalized CD34 + cell numbers, and restored CD34 + cell mobilization in leukemic mice. These data suggest that the tumor microenvironment causes HPC dysfunction by usurping normal HPC niches and that therapeutic inhibition of HPC interaction with tumor niches may help maintain normal progenitor cell function in the setting of malignancy.

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CD1-restricted adaptive immune responses to Mycobacteria in human group 1 CD1 transgenic mice

Felio

Nguyen

Dascher

et al. 2009

132

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Group 1 CD1 (CD1a, CD1b, and CD1c)–restricted T cells recognize mycobacterial lipid antigens and are found at higher frequencies in Mycobacterium tuberculosis (Mtb)–infected individuals. However, their role and dynamics during infection remain unknown because of the lack of a suitable small animal model. We have generated human group 1 CD1 transgenic (hCD1Tg) mice that express all three human group 1 CD1 isoforms and support the development of group 1 CD1–restricted T cells with diverse T cell receptor usage. Both mycobacterial infection and immunization with Mtb lipids elicit group 1 CD1–restricted Mtb lipid–specific T cell responses in hCD1Tg mice. In contrast to CD1d-restricted NKT cells, which rapidly respond to initial stimulation but exhibit anergy upon reexposure, group 1 CD1–restricted T cells exhibit delayed primary responses and more rapid secondary responses, similar to conventional T cells. Collectively, our data demonstrate that group 1 CD1–restricted T cells participate in adaptive immune responses upon mycobacterial infection and could serve as targets for the development of novel Mtb vaccines.

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Beyond angiogenesis: the role of endothelium in the bone marrow vascular niche

Colmone

Sipkins²

2008

Translational Research

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A Cell-Type Specific CD1d Expression Program Modulates Invariant NKT Cell Development and Function

Zimmer

Colmone

Felio

et al. 2006

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Invariant NK T (iNKT) cells are a distinct subset of T cells that rapidly produce an array of immunoregulatory cytokines upon activation. Cytokines produced by iNKT cells subsequently transactivate other leukocytes and elicit their respective effector functions. In this way, iNKT cells play a central role in coordinating the development of immune responses in a variety of settings. However, the mechanisms governing the quality of the iNKT cell response elicited remain poorly defined. To address whether changes in the CD1d expression pattern could regulate iNKT cell function, we generated a transgenic (Tg) mouse model in which thymocytes and peripheral T cells express high levels of CD1d (Lck-CD1d Tg+ mice). The expression of CD1d by T cells was sufficient to rescue development of iNKT cells in mice deficient of endogenous CD1d. However, the relative proportions of iNKT cell subsets in Lck-CD1d Tg+ mice were distinctly different from those in wild-type mice, suggesting an altered developmental program. Additionally, iNKT cells were hyporesponsive to antigenic stimulation in vivo. Interestingly, Lck-CD1d Tg+ mice develop liver pathology in the absence of any exogenous manipulation. The results of these studies suggest that changes to the CD1d expression program modulate iNKT cell development and function.

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Polymorphisms in CD1d affect antigen presentation and the activation of CD1d-restricted T cells

Zimmer

Nguyen²,

Wang³

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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CD1 proteins constitute a distinct lineage of antigen-presenting molecules specialized for the presentation of lipid antigens to T cells. In contrast to the extensive sequence polymorphism characteristic of classical MHC molecules, CD1 proteins exhibit limited sequence diversity. Here, we describe the identification and characterization of CD1d alleles in wild-derived mouse strains. We demonstrate that polymorphisms in CD1d affect the presentation of endogenous and exogenous ligands to CD1d-restricted T cells, including type I (V␣14i) and type II (non-V␣14i) natural killer T (NKT) cells. Using congenic mice, we found CD1d polymorphisms affect the thymic selection of type I NKT cells and induce allogeneic T cell responses. Collectively, results from these studies demonstrate a role for polymorphisms in influencing the development and function of CD1d-restricted T cells.T cell activation ͉ T cell development

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Angela Colmone

Leukemic Cells Create Bone Marrow Niches That Disrupt the Behavior of Normal Hematopoietic Progenitor Cells

CD1-restricted adaptive immune responses to Mycobacteria in human group 1 CD1 transgenic mice

Beyond angiogenesis: the role of endothelium in the bone marrow vascular niche

A Cell-Type Specific CD1d Expression Program Modulates Invariant NKT Cell Development and Function

Polymorphisms in CD1d affect antigen presentation and the activation of CD1d-restricted T cells

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