TGM6, a helminth secretory product, mimics TGF-ß binding to TßRII to antagonize TGF-ß signaling in fibroblasts.

ABSTRACT

The murine helminth parasite Heligmosomoides polygyrus expresses a family of proteins structurally related to TGF-ß Mimic 1 (TGM1), a secreted five domain protein that activates the TGF-ß pathway and converts naïve T lymphocytes to immunosuppressive Tregs. TGM1 signals through the TGF-ß type I and type II receptors, TßRI and TßRII, with domains 1-2 and 3 binding TßRI and TßRII, respectively, and domains 4-5 binding CD44, a co-receptor abundant on T cells. TGM6 is a homologue of TGM1 that is co-expressed with TGM1, but lacks domains 1 and 2. Herein, we show that TGM6 binds TßRII through domain 3, but does not bind TßRI, or other type I or type II receptors of the TGF-ß family. In TGF-ß reporter assays in fibroblasts, TGM6, but not truncated TGM6 lacking domains 4 and 5, potently inhibits TGF-ß- and TGM1-induced signaling, consistent with its ability to bind TßRII but not TßRI or other receptors of the TGF-ß family. However, TGM6 does not bind CD44 and is unable to inhibit TGF-ß and TGM1 signaling in T cells. To understand how TGM6 binds TßRII, the X-ray crystal structure of the TGM6 domain 3 bound to TßRII was determined at 1.4 Å. This showed that TGM6 domain 3 binds TßRII through an interface remarkably similar to the TGF-ßTßRII interface. These results suggest that TGM6 has adapted its domain structure and sequence to mimic TGF-ß binding to TßRII and function as a potent TGF-ß and TGM1 antagonist in fibroblasts. The coexpression of TGM6, along with the immunosuppressive TGMs that activate the TGF-ß pathway, may prevent tissue damage caused by the parasite as it progresses through its life cycle from the intestinal lumen to submucosal tissues and back again.