Manreet K. Chehal scite author profile

Cancer is associated with immune dysfunction characterized by the presence of proinflammatory and immunosuppressive cells and factors that contribute to tumor growth and progression. Here we show that mammary tumor growth is associated with defects in hematopoiesis, leading to myeloproliferative-like disease (leukemoid reaction), anemia, and disruption of the bone marrow stem/progenitor compartment. The defects we characterized included impaired erythropoiesis, leukocytosis, loss of early progenitor cells in the bone marrow, and splenic extramedullary hematopoiesis. We established an in vitro model to dissect interactions between mammary cancers and the hematopoietic system. Investigations in this model revealed that granulocyte colonystimulating factor (G-CSF) produced by mammary tumors can synergize with FLT3L and granulocyte macrophage CSF (GM-CSF) to expand myeloid progenitors and their progeny in culture. Mammary tumor growth was associated with histone methylation changes within lineage-negative c-Kit-positive hematopoietic cells within the bone marrow of tumor-bearing mice. Similarly, parallel histone methylation patterns occurred in cultured bone marrow cells exposed to mammary tumor-conditioned cell culture media. Notably, changes in histone methylation in these cell populations correlated with dysregulated expression of genes controlling hematopoietic lineage commitment and differentiation, including Hox family genes and members of the Polycomb repressive complex 2 (PRC2) chromatin-remodeling complex. Together, our results show that mammary tumor-secreted factors induce profound perturbations in hematopoiesis and expression of key hematopoietic regulatory genes.

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Lyn activity protects mice from DSS colitis and regulates the production of IL-22 from innate lymphoid cells

Bishop

Roberts

Beer

et al. 2014

Mucosal Immunology

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Intestinal homeostasis requires a complex balance of interactions between diverse resident microbial communities, the intestinal epithelium, and the underlying immune system. We show that the Lyn tyrosine kinase, a critical regulator of immune cell function and pattern-recognition receptor (PRR) responses, has a key role in controlling gastrointestinal inflammation. Lyn⁻/⁻ mice were highly susceptible to dextran sulfate sodium (DSS)-induced colitis, whereas Lyn gain-of-function (Lyn(up)) mice exhibited attenuated colitis during acute and chronic models of disease. Lyn(up) mice were hypersensitive to lipopolysaccharide (LPS), driving enhanced production of cytokines and factors associated with intestinal barrier function, including interleukin (IL)-22. Oral administration of LPS was sufficient to protect antibiotic-treated Lyn(up) but not wild-type mice from DSS, highlighting how Lyn-dependent changes in the nature/magnitude of PRR responses can impact intestinal health. Furthermore, protection from DSS-induced colitis and increased IL-22 production in response to LPS did not depend on the adaptive immune system, with increased innate lymphoid cell-derived IL-22 correlating with Lyn activity in dendritic cells. These data reveal a key role for Lyn in the regulation of innate immune responses and control of intestinal inflammation.

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Lyn-Dependent Signaling Regulates the Innate Immune Response by Controlling Dendritic Cell Activation of NK Cells

Krebs

Chehal

Sio

et al. 2012

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The innate immune response is a first line of defense against invading pathogens; however, the magnitude of this response must be tightly regulated, as hyper- or suboptimal responses can be detrimental to the host. Systemic inflammation resulting from bacterial infection can lead to sepsis, which remains a serious problem with high mortality rates. Lyn tyrosine kinase plays a key role in adaptive immunity, although its role in innate immunity remains unclear. In this study, we show that Lyn gain-of-function (Lynup/up) mice display enhanced sensitivity to endotoxin and succumb to upregulated proinflammatory cytokine production at a dose well tolerated by control animals. Endotoxin sensitivity in Lynup/up mice depends on dendritic cells (DCs) and NK cells and occurs though a mechanism involving increased maturation and activation of the DC compartment, leading to elevated production of IFN-γ by NK cells. We further show that modulation of endotoxin-induced signal transduction in DCs by Lyn involves the phosphatases Src homology 2 domain-containing phosphatase-1 and SHIP-1. Collectively, we demonstrate that Lyn regulates DC physiology such that alterations in Lyn-dependent signaling have profound effects on the nature and magnitude of inflammatory responses. Our studies highlight how perturbations in signaling pathways controlling DC/NK cell-regulated responses to microbial products can profoundly affect the magnitude of innate immune responses.

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Cytochrome p450 2C (CYP2C) in ischemic heart injury and vascular dysfunctionThis paper is one of a selection of papers published in this Special Issue, entitled Young Investigator's Forum.

Chehal

Granville

2006

Can. J. Physiol. Pharmacol.

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The cytochrome p450 2C (CYP2C) monooxygenase family is a key player in the generation of epoxyeicosatrienoic acids. It has recently become apparent that CYP plays an important role in cardiovascular physiology and contributes to the pathogenesis of various cardiovascular diseases. In particular, several studies have demonstrated a role for these enzymes in cardiac ischemia and reperfusion injury. The current review summarizes the role of the CYP epoxygenase, CYP2C9, in ischemic heart disease and vascular homeostasis.

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Manreet K. Chehal

Dysregulated Hematopoiesis Caused by Mammary Cancer Is Associated with Epigenetic Changes and Hox Gene Expression in Hematopoietic Cells

Lyn activity protects mice from DSS colitis and regulates the production of IL-22 from innate lymphoid cells

Lyn-Dependent Signaling Regulates the Innate Immune Response by Controlling Dendritic Cell Activation of NK Cells

Cytochrome p450 2C (CYP2C) in ischemic heart injury and vascular dysfunctionThis paper is one of a selection of papers published in this Special Issue, entitled Young Investigator's Forum.

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