The stroma provides a microenvironment that regulates tumor cell behavior. The extracellular matrix (ECM) has long been recognized to be important in tumor cell behavior, and previous studies have revealed the impact of individual matrix molecules on tumor progression. Although several reports have highlighted some central roles of tumor cell-expressed versican, the role of host stromal versican is not yet understood. In this study, we demonstrate that versican is an important molecule in the functional ECM structure and maintaining cancer-associated fibroblasts, using versican-negative QRsP11 fibrosarcoma cells. By their subcutaneous injection with cre-expressing adenoviruses to versican-floxed mice, we demonstrate that loss of host stromal versican facilitates tumor cell proliferation, and following angiogenesis, decreases cancer-associated fibroblasts, diminishes collagen fibers and alters hyaluronan distribution, concomitant with upregulation of hyaluronan, TGFb and VEGFmediated signaling. When the versican V3 variant consisting of G1 and G3 domains was expressed in tumor cells, it was integrated into the ECM, regained collagen fibers and cancer-associated fibroblasts and resulted in successful recovery of tumor growth inhibition, indicating that whatever cells produce, the G1 and G3 domains are adequate for versican function. Collectively, our results indicate a dynamic function of versican in the ECM that regulates tumor cell behavior. A greater understanding of the regulation of versican expression may contribute to the development of cancer therapies.Cancer cell behavior is largely affected by its microenvironment (such as the stroma), which comprises the extracellular matrix (ECM), fibroblasts and blood vessels.
A new generation of artificial proteins, derived from alpha-helicoidal HEAT-like repeat protein scaffolds (αRep), was previously characterized as an effective source of intracellular interfering proteins. In this work, a phage-displayed library of αRep was screened on a region of HIV-1 Gag polyprotein encompassing the C-terminal domain of the capsid, the SP1 linker and the nucleocapsid. This region is known to be essential for the late steps of HIV-1 life cycle, Gag oligomerization, viral genome packaging and the last cleavage step of Gag, leading to mature, infectious virions. Two strong αRep binders were isolated from the screen, αRep4E3 (32 kDa; 7 internal repeats) and αRep9A8 (28 kDa; 6 internal repeats). Their antiviral activity against HIV-1 was evaluated in VLP-producer cells and in human SupT1 cells challenged with HIV-1. Both αRep4E3 and αRep9A8 showed a modest but significant antiviral effects in all bioassays and cell systems tested. They did not prevent the proviral integration reaction, but negatively interfered with late steps of the HIV-1 life cycle: αRep4E3 blocked the viral genome packaging, whereas αRep9A8 altered both virus maturation and genome packaging. Interestingly, SupT1 cells stably expressing αRep9A8 acquired long-term resistance to HIV-1, implying that αRep proteins can act as antiviral restriction-like factors.
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