Mechanisms of TGF-Beta Production in Human Cancer Cells

Project: Research project

Project Details

Description

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DESCRIPTION (provided by applicant): Tumor cells that are resistant to the growth inhibitory effects of TGF? can still secrete TGF?, which enhances tumorigenesis via the paracrine effects of TGF? in the tumor microenvironment. It is advantageous to block this secreted TGF? in late-stage tumors that have lost the TGF? growth inhibitory signals. We have identified the signaling pathways mediating TGF?1 production in untransformed epithelial cells (UECs) and in human colon cancer cells (HCCCs). One of the differences involves a switching of the AP-1 transcription factors (TFs) bound to the relevant region of the TGF?1 promoter. Here we will explore the mechanisms underlying this TF switching, including the role played by altered compartmentalization of signaling complexes. In addition, we have identified the novel TGF? signaling intermediate km23, which is also a light chain of the motor protein dynein (DLC). The dynein motor complex can transport membrane vesicles (ie, endosomal compartments) containing TGF? receptors (T?R's) and TGF? signaling components along the microtubules to a new vesicular compartment, prior to nuclear translocation and signal activation. Among other motor subunits, DLCs such as km23 specify the cargo that will be attached to the motor for intracellular transport after receptor endocytosis. Thus, km23 plays a key role in maintaining the appropriate localization of TGF? signaling complexes. In addition, we have shown that km23 is required for TGF?1 production in both UECs and HCCCs. Accordingly, the studies proposed herein will also investigate the mechanisms underlying the ability of km23 to regulate the MAPK pathways required for TGF?1 production, including identifying differences between HCCCs and UECs in km23 control of the spatial and temporal regulation of the signaling complexes specifically mediating TGF?1 production. Attempts will be made to block the constitutive (ie, not TGF?-regulated) production of TGF?1 in advanced-stage colon cancer, to decrease the tumorigenic potential both in vitro and in vivo. The results should lead to the design of novel approaches to suppress tumor progression in TGF?-resistant HCC, via blockade of specific components important in the spatial and temporal regulation of TGF?1 production pathway signaling. Thus, the proposed studies will investigate the role of a novel component in controlling TGF?1 production using a novel, multidimensional approach. The results of the studies should reveal significant differences between HCCC's and UEC's in the altered compartmentalization of signaling complexes, as well as in the differential utilization of signaling components, thereby facilitating efforts to selectively block constitutive TGF?1 production in late-stage human colon carcinomas. [unreadable]
The goal of this proposal is to reduce production of a growth factor that enhances the spread of colon cancer. The results should lead to the development of novel approaches to treat colon cancer. [unreadable]
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StatusFinished
Effective start/end date8/1/075/31/08

Funding

  • National Cancer Institute: $301,958.00

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