Diana Avery scite author profile

Malignant cells drive the generation of a desmoplastic and immunosuppressive tumor microenvironment. Cancer-associated stromal cells (CASCs) are a heterogeneous population that provides both negative and positive signals for tumor cell growth and metastasis. Fibroblast activation protein (FAP) is a marker of a major subset of CASCs in virtually all carcinomas. Clinically, FAP expression serves as an independent negative prognostic factor for multiple types of human malignancies. Prior studies established that depletion of FAP+ cells inhibits tumor growth by augmenting anti-tumor immunity. However, the potential for immune-independent effects on tumor growth have not been defined. Herein, we demonstrate that FAP+ CASCs are required for maintenance of the provisional tumor stroma since depletion of these cells, by adoptive transfer of FAP-targeted chimeric antigen receptor (CAR) T cells, reduced extracellular matrix proteins and glycosaminoglycans. Adoptive transfer of FAP-CAR T cells also decreased tumor vascular density and restrained growth of desmoplastic human lung cancer xenografts and syngeneic murine pancreatic cancers in an immune-independent fashion. Adoptive transfer of FAP-CAR T cells also restrained autochthonous pancreatic cancer growth. These data distinguish the function of FAP+ CASCs from other CASC subsets and provide support for further development of FAP+ stromal cell-targeted therapies for the treatment of solid tumors.

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Extracellular matrix directs phenotypic heterogeneity of activated fibroblasts

Avery

Govindaraju

Jacob³

et al. 2018

Matrix Biology

160

121

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Activated fibroblasts are key players in the injury response, tumorigenesis, fibrosis, and inflammation. Dichotomous outcomes in response to varied stroma-targeted therapies in cancer emphasize the need to disentangle the roles of heterogeneous fibroblast subsets in physiological and pathophysiological settings. In wound healing, fibrosis, and myriad tumor types, fibroblast activation protein (FAP) and alpha-smooth muscle actin (αSMA) identify distinct, yet overlapping, activated fibroblast subsets. Prior studies established that FAP reactive fibroblasts and αSMA myofibroblasts can exert opposing influences in tumorigenesis. However, the factors that drive this phenotypic heterogeneity and the unique functional roles of these subsets have not been defined. We demonstrate that a convergence of ECM composition, elasticity, and transforming growth factor beta (TGF-β) signaling governs activated fibroblast phenotypic heterogeneity. Furthermore, FAP reactive fibroblasts and αSMA myofibroblasts exhibited distinct gene expression signatures and functionality in vitro, illuminating potentially unique roles of activated fibroblast subsets in tissue remodeling. These insights into activated fibroblast heterogeneity will inform the rational design of stroma-targeted therapies for cancer and fibrosis.

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Fibroblast activation protein augments progression and metastasis of pancreatic ductal adenocarcinoma

Lo¹,

Buza

et al. 2017

120

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US28 Is a Potent Activator of Phospholipase C during HCMV Infection of Clinically Relevant Target Cells

et al. 2012

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Members of the cytomegalovirus family each encode two or more genes with significant homology to G-protein coupled receptors (GPCRs). In rodent models of pathogenesis, these viral encoded GPCRs play functionally significant roles, as their deletion results in crippled viruses that cannot traffic properly and/or replicate in virally important target cells. Of the four HCMV encoded GPCRs, US28 has garnered the most attention due to the fact that it exhibits both agonist-independent and agonist-dependent signaling activity and has been demonstrated to promote cellular migration and proliferation. Thus, it appears that the CMV GPCRs play important roles in viral replication in vivo as well as promote the development of virus-associated pathology. In the current study we have utilized a series of HCMV/US28 recombinants to investigate the expression profile and signaling activities of US28 in a number of cell types relevant to HCMV infection including smooth muscle cells, endothelial cells and cells derived from glioblastoma multiforme (GBM) tumors. The results indicate that US28 is expressed and exhibits constitutive agonist-independent signaling activity through PLC-β in all cell types tested. Moreover, while CCL5/RANTES and CX3CL1/Fractalkine both promote US28-dependent Ca++ release in smooth muscle cells, this agonist-dependent effect appears to be cell-specific as we fail to detect US28 driven Ca++ release in the GBM cells. We have also investigated the effects of US28 on signaling via endogenous GPCRs including those in the LPA receptor family. Our data indicate that US28 can enhance signaling via endogenous LPA receptors. Taken together, our results indicate that US28 induces a variety of signaling events in all cell types tested suggesting that US28 signaling likely plays a significant role during HCMV infection and dissemination in vivo.

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Deletion of Calcineurin Promotes a Protumorigenic Fibroblast Phenotype

Lieberman¹,

Barrett²,

Kim³

et al. 2019

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Fibroblast activation is a crucial step in tumor growth and metastatic progression. Activated fibroblasts remodel the extracellular matrix (ECM) in primary tumor and metastatic microenvironments, exerting both pro-and antitumorigenic effects. However, the intrinsic mechanisms that regulate the activation of fibroblasts are not well-defined. The signaling axis comprising the calcium-activated Ser/Thr phosphatase calcineurin (CN), and its downstream target nuclear factor of activated T cells, has been implicated in endothelial (EC) and immune cell activation, but its role in fibroblasts is not known. Here, we demonstrate that deletion of CN in fibroblasts in vitro altered fibroblast morphology and function consistent with an activated phenotype relative to wild-type fibroblasts. CN-null fibroblasts had a greater migratory capacity, increased collagen secretion and remodeling, and promoted more robust EC activation in vitro. ECM generated by CN-null fibroblasts contained more collagen with greater alignment of fibrillar collagen compared with wild-type fibroblast-derived matrix. These differences in matrix composition and organization imposed distinct changes in morphology and cytoskeletal architecture of both fibroblasts and tumor cells. Consistent with this in vitro phenotype, mice with stromal CN deletion had a greater incidence and larger lung metastases. Our data suggest that CN signaling contributes to the maintenance of fibroblast homeostasis and that loss of CN is sufficient to promote fibroblast activation. Significance: Calcineurin signaling is a key pathway underlying fibroblast homeostasis that could be targeted to potentially prevent fibroblast activation in distant metastatic sites.

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Diana Avery

Tumor-Promoting Desmoplasia Is Disrupted by Depleting FAP-Expressing Stromal Cells

Extracellular matrix directs phenotypic heterogeneity of activated fibroblasts

Fibroblast activation protein augments progression and metastasis of pancreatic ductal adenocarcinoma

US28 Is a Potent Activator of Phospholipase C during HCMV Infection of Clinically Relevant Target Cells

Deletion of Calcineurin Promotes a Protumorigenic Fibroblast Phenotype

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