Nathan Gödde scite author profile

Here we describe a novel protein, which we have named Tanis, that is implicated in type 2 diabetes and inflammation. In Psammomys obesus, a unique polygenic animal model of type 2 diabetes and the metabolic syndrome, Tanis is expressed in the liver in inverse proportion to circulating glucose (P ‫؍‬ 0.010) and insulin levels (P ‫؍‬ 0.004) and in direct proportion with plasma triglyceride concentrations (P ‫؍‬ 0.007). Hepatic Tanis gene expression was markedly increased (3.1-fold) after a 24-h fast in diabetic but not in nondiabetic P. obesus. In addition, glucose inhibited Tanis gene expression in cultured hepatocytes (P ‫؍‬ 0.006) as well as in several other cell types (P ‫؍‬ 0.001-0.011). Thus, Tanis seems to be regulated by glucose and is dysregulated in the diabetic state. Yeast-2 hybrid screening identified serum amyloid A (SAA), an acute-phase inflammatory response protein, as an interacting protein of Tanis, and this was confirmed by Biacore experiments. SAA and other acute-phase proteins have been the focus of recent attention as risk factors for cardiovascular disease, and we contend that Tanis and its interaction with SAA may provide a mechanistic link among type 2 diabetes, inflammation, and cardiovascular disease.

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Structural basis for the differential interaction of Scribble PDZ domains with the guanine nucleotide exchange factor β-PIX

Lim

Gödde

Humbert

et al. 2017

Journal of Biological Chemistry

100

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Scribble is a highly conserved protein regulator of cell polarity that has been demonstrated to function as a tumor suppressor or, conversely, as an oncogene in a context-dependent manner, and it also controls many physiological processes ranging from immunity to memory. Scribble consists of a leucine-rich repeat domain and four PDZ domains, with the latter being responsible for most of Scribble's complex formation with other proteins. Given the similarities of the Scribble PDZ domain sequences in their binding grooves, it is common for these domains to show overlapping preferences for the same ligand. Yet, Scribble PDZ domains can still exhibit unique binding profiles toward other ligands. This raises the fundamental question as to how these PDZ domains discriminate ligands and exert specificities in Scribble complex formation. To better understand how Scribble PDZ domains direct cell polarity signaling, we investigated here their interactions with the well-characterized Scribble binding partner β-PIX, a guanine nucleotide exchange factor. We report the interaction profiles of all isolated Scribble PDZ domains with a β-PIX peptide. We show that Scribble PDZ1 and PDZ3 are the major interactors with β-PIX and reveal a distinct binding hierarchy in the interactions between the individual Scribble PDZ domains and β-PIX. Furthermore, using crystal structures of PDZ1 and PDZ3 bound to β-PIX, we define the structural basis for Scribble's ability to specifically engage β-PIX via its PDZ domains and provide a mechanistic platform for understanding Scribble-β-PIX-coordinated cellular functions such as directional cell migration.

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Intermittent hypoxia induces a metastatic phenotype in breast cancer

et al. 2018

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Hypoxia arises frequently in solid tumors and is a poor prognostic factor as it promotes tumor cell proliferation, invasion, angiogenesis, therapy resistance, and metastasis. Notably, there are two described forms of hypoxia present in a growing tumor: chronic hypoxia, caused by abnormal tumor vasculature, and intermittent hypoxia, caused by transient perfusion facilitated by tumor-supplying blood vessels. Here, we demonstrate that intermittent hypoxia, but not chronic hypoxia, endows breast cancer cells with greater metastatic potential. Using an immunocompetent and syngeneic murine model of breast cancer, we show that intermittent hypoxia enhances metastatic seeding and outgrowth in lungs in vivo. Furthermore, exposing mammary tumor cells to intermittent hypoxia promoted clonal diversity, upregulated metastasis-associated gene expression, induced a pro-tumorigenic secretory profile, increased stem-like cell marker expression, and gave rise to tumor-initiating cells at a relatively higher frequency. This work demonstrates that intermittent hypoxia, but not chronic hypoxia, induces a number of genetic, molecular, biochemical, and cellular changes that facilitate tumor cell survival, colonization, and the creation of a permissive microenvironment and thus enhances metastatic growth.

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Nathan Gödde

Tanis: A Link Between Type 2 Diabetes and Inflammation?

Structural basis for the differential interaction of Scribble PDZ domains with the guanine nucleotide exchange factor β-PIX

Intermittent hypoxia induces a metastatic phenotype in breast cancer

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