Gangli Gong

The Ngal reporter mouse detects the response of the kidney to injury in real time

Many proteins have been proposed to act as surrogate markers of organ damage, yet for many candidates the essential biomarker characteristics that link the protein to the injured organ have not yet been described. We generated an Ngal reporter mouse by inserting a double-fusion reporter gene encoding luciferase-2 and mCherry (Luc2-mC) into the Ngal (Lcn2) locus. The Ngal-Luc2-mC reporter accurately recapitulated the endogenous message and illuminated injuries in vivo in real time. In the kidney, Ngal-Luc2-mC imaging showed a sensitive, rapid, dose-dependent, reversible, and organ- and cell-specific relationship with tubular stress, which correlated with the level of urinary Ngal (uNgal). Unexpectedly, specific cells of the distal nephron were the source of uNgal. Cells isolated from Ngal-Luc2-mC mice also revealed both the onset and the resolution of the injury, and the actions of NF-κB inhibitors and antibiotics during infection. Thus, imaging of Ngal-Luc2-mC mice and cells identified injurious and reparative agents that affect kidney damage.

Discovery of a novel submicromolar inhibitor of the lymphoid specific tyrosine phosphatase.

We report here a class of thiazolidine-2,4-diones and 2-thioxothiazolidin-4-ones as potent inhibitors of the lymphoid specific tyrosine phosphatase (Lyp) identified from high throughput screens. Chemical modification by incorporating the known phosphotyrosine (pTyr) mimics led to the discovery of a salicylate-based inhibitor with submicromolar potency.

Inhibition of lymphoid tyrosine phosphatase by benzofuran salicylic acids

The lymphoid tyrosine phosphatase (Lyp, PTPN22) is a critical negative regulator of T cell antigen receptor (TCR) signaling. A single-nucleotide polymorphism (SNP) in the ptpn22 gene correlates with the incidence of various autoimmune diseases, including type 1 diabetes, rheumatoid arthritis, and systemic lupus erythematosus. Since the disease-associated allele is a more potent inhibitor of TCR signaling, specific Lyp inhibitors may become valuable in treating autoimmunity. Using a structure-based approach, we synthesized a library of 34 compounds that inhibited Lyp with IC(50) values between 0.27 and 6.2 μM. A reporter assay was employed to screen for compounds that enhanced TCR signaling in cells, and several inhibitors displayed a dose-dependent, activating effect. Subsequent probing for Lyps direct physiological targets by immunoblot analysis confirmed the ability of the compounds to inhibit Lyp in T cells. Selectivity profiling against closely related tyrosine phosphatases and in silico docking studies with the crystal structure of Lyp yielded valuable information for the design of Lyp-specific compounds.

Discovery of Potent Non-urea Inhibitors of Soluble Epoxide Hydrolase

Soluble epoxide hydrolase (sEH) is a novel target for the treatment of hypertension and vascular inflammation. A new class of potent non-urea sEH inhibitors was identified via high throughput screening (HTS) and chemical modification. IC(50)s of the most potent compounds range from micromolar to low nanomolar.

Potent inhibitors of Huntingtin protein aggregation in a cell-based assay.

A quinazoline that decreases polyglutamine aggregate burden in a cell-based assay was identified from a high-throughput screen of a chemical-compound library, provided by the NIH Molecular Libraries Small Molecule Repository (MLSMR). A structure and activity study yielded leads with submicromolar potency.

Discovery of novel small molecule cell type-specific enhancers of NF-κB nuclear translocation

An IKKbeta inhibitor reported to block NF-kappaB transcriptional activities in Jurkat T cells, was found to enhance NF-kappaB translocation in HUVEC cells. These studies suggested a noncanonical NF-kappaB signaling pathway independent of IKKbeta in HUVEC cells.

Small-Molecule Modulators of the NF-κB Pathway Newly Identified by a Translocation-Based Cellular Assay

Nuclear factor kappa B (NF-kappaB) is an important transcription factor. Aberrant regulation of the NF-kappaB pathway is frequently observed in a number of major ailments such as cancer and inflammatory diseases. Hence NF-kappaB modulators have been intensely pursued for their potential therapeutic applications. Numerous reviews have described recent progress in the development of these agents. More recently, a variety of structurally and functionally novel small molecules, identified through high-throughput screens conducted within the Molecular Libraries Screening Center Network (MLSCN) of the NIH Roadmap for Medical Research, have been added to the current list of NF-kappaB regulators. This review will discuss the inhibitors and activators newly discovered by Columbias Molecular Libraries Screening Center (MLSC) using a well-designed and stable cellular assay.