Jeffrey Mckenna

Asymmetric Palladium-Catalyzed Directed Intermolecular Fluoroarylation of Styrenes

A mild catalytic asymmetric direct fluoro-arylation of styrenes has been developed. The palladium-catalyzed three-component coupling of Selectfluor, a styrene and a boronic acid, provides chiral monofluorinated compounds in good yield and in high enantiomeric excess. A mechanism proceeding through a Pd(IV)-fluoride intermediate is proposed for the transformation and synthesis of an sp3 C–F bond.

The scope and limitations of the Suzuki–Miyaura cross-coupling reactions of 6- and 8-substituted 1,2,3,4-tetrahydroisoquinoline-3-carboxylates

Abstract 6- and 8-Aryl-1,2,3,4-tetrahydroisoqinoline-3-carboxylates have been prepared by Suzuki–Miyaura cross-coupling reactions of the triflates or corresponding boronate esters. We have shown for the first time that a one-pot arylation of a triflate via the boronate ester can be achieved using an aryl chloride.

Developments and Advances in Gastrointestinal Prokinetic Agents

Publisher Summary This chapter highlights the advances made in the area of gastrointestinal (GI) prokinetics in both the clinical and early discovery phases between 2006 and 2010, with an emphasis on the more recent developments. The quality of life for people suffering from functional gastrointestinal disorders (FGIDs) is significantly reduced when compared with that of the general population. In recent years, there have been numerous clinical advances in the field of prokinetic agents, which offer great potential for patients who suffer from FGIDs. Specifically, the launches of prucalopride and lubiprostone provide new treatment options for those with cholecystokinin (CC) and irritable bowel syndrome with constipation (IBS-C). Major advances are evident in the area of gastroparesis (GP), where the ghrelin agonist ulimorelin and TZP-102 hold much promise, and in the related motilin field, where the low-molecular-weight agonist GlaxoSmithKline (GSK)-962040 has also reached the clinic. In the chronic idiopathic constipation (CIC) arena, the first in class ileal bile acid transporter (IBAT) inhibitor A-3309 is significant. Given the complex nature of FGIDs, and specifically the low treatment responses versus placebo often observed in clinical trials, it is clear that the design of these trials is critical in ensuring success and ultimately enabling new molecular entities to reach patients.

Chiral Diaryliodonium Phosphate Enables Light Driven Diastereoselective α-C(sp3)–H Acetalization

C(sp3)-H bond functionalization has emerged as a robust tool enabling rapid construction of molecular complexity from simple building blocks, and the development of asymmetric versions of this reaction creates a powerful methodology to access enantiopure sp3-rich materials. Herein, we report the stereoselective functionalization of C(sp3)-H bonds of cyclic ethers employing a photochemically active diaryliodonium salt in combination with an anionic phase-transfer catalyst. The synthetic strategy outlined herein allows for regio- and stereochemical control in the α-C-H acetalization of furans and pyrans using alcohol nucleophiles, thus providing the ability to control the configuration at the stereogenic exocyclic acetal carbon.

Abstract 1445: STING activation in the tumor microenvironment with a synthetic human STING-activating cyclic dinucleotide leads to potent anti-tumor immunity

Stimulator of Interferon Genes (STING) is a critical signaling sensor of the innate immune system. STING binds cyclic dinucleotides (CDN) produced by an intracellular enzyme in response to presence of intracellular DNA, including tumor-derived DNA. STING-mediated production of host type I interferon within the tumor microenvironment (TME) leads to the priming and activation of systemic tumor antigen-specific CD8+ T-cell immunity and tumor regression. A novel synthetic CDN derivative (ADU-S100), with superior STING-activating and anti-tumor properties, was developed for clinical translation. ADU-S100 has enhanced cellular uptake properties and stability, as compared to bacterial- and mammalian-derived CDNs. Induced cytokine expression from a panel of donor human peripheral blood mononuclear cells (PBMCs) expressing a variety of STING alleles, including a homozygous haplotype for the most refractory human allele (R232H), indicate that ADU-S100 activates STING across a diverse human population. Direct engagement of STING through intratumoral (IT) administration of ADU-S100 results in effective anti-tumor therapy and long-term survival in various mouse syngeneic tumor models. IT injection of ADU-S100 also generates substantial systemic immune responses capable of rejecting distant metastases and provides long-lived immunologic memory. Mechanistic studies demonstrate that STING-mediated anti-tumor immunity is due in part to an acute pro-inflammatory cytokine response as well as a tumor-specific CD8+ T cell response. Anti-tumor efficacy is enhanced by combination with immune checkpoint inhibitors, for example anti-PD1, informing future clinical development. By virtue of the ability to elicit innate and T cell-mediated anti-tumor immunity in the TME, these results demonstrate that CDNs have high translational potential for the treatment of patients with advanced/metastatic solid tumors. Citation Format: Laura Hix Glickman, David B. Kanne, Shailaja Kasibhatla, Jie Li, AnneMarie Culazzo Pferdekamper, Kelsey Sivick Gauthier, Weiwen Deng, Anthony L. Desbien, George E. Katibah, Justin J. Leong, Leonard Sung, Ken Metchette, Chudi Ndubaku, Lianxing Zheng, Charles Cho, Yan Feng, Jeffrey M. McKenna, John A. Tallarico, Steven L. Bender, Thomas W. Dubensky, Sarah M. McWhirter. STING activation in the tumor microenvironment with a synthetic human STING-activating cyclic dinucleotide leads to potent anti-tumor immunity. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1445.

Covalent Ligand Screening Uncovers a RNF4 E3 Ligase Recruiter for Targeted Protein Degradation Applications

Targeted protein degradation has arisen as a powerful strategy for drug discovery allowing the targeting of undruggable proteins for proteasomal degradation. This approach most often employs heterobifunctional degraders consisting of a protein-targeting ligand linked to an E3 ligase recruiter to ubiquitinate and mark proteins of interest for proteasomal degradation. One challenge with this approach, however, is that only few E3 ligase recruiters currently exist for targeted protein degradation applications, despite the hundreds of known E3 ligases in the human genome. Here, we utilized activity-based protein profiling (ABPP)-based covalent ligand screening approaches to identify cysteine-reactive small-molecules that react with the E3 ubiquitin ligase RNF4 and provide chemical starting points for the design of RNF4-based degraders. The hit covalent ligand from this screen reacted with either of two zinc-coordinating cysteines in the RING domain, C132 and C135, with no effect on RNF4 activity. We further optimized the potency of this hit and incorporated this potential RNF4 recruiter into a bifunctional degrader linked to JQ1, an inhibitor of the BET family of bromodomain proteins. We demonstrate that the resulting compound CCW 28-3 is capable of degrading BRD4 in a proteasome- and RNF4-dependent manner. In this study, we have shown the feasibility of using chemoproteomics-enabled covalent ligand screening platforms to expand the scope of E3 ligase recruiters that can be exploited for targeted protein degradation applications.

Harnessing the Anti-Cancer Natural Product Nimbolide for Targeted Protein Degradation

Nimbolide, a terpenoid natural product derived from the Neem tree, impairs cancer pathogenicity across many types of human cancers; however, the direct targets and mechanisms by which nimbolide exerts its effects are poorly understood. Here, we used activity-based protein profiling (ABPP) chemoproteomic platforms to discover that nimbolide reacts with a novel functional cysteine crucial for substrate recognition in the E3 ubiquitin ligase RNF114. Nimbolide impairs breast cancer cell proliferation by disrupting RNF114 substrate recognition, leading to inhibition of ubiquitination and degradation of the tumor-suppressor p21, resulting in its rapid stabilization. We further demonstrate that nimbolide can be harnessed to recruit RNF114 as an E3 ligase in targeted protein degradation applications and show that synthetically simpler scaffolds are also capable of accessing this unique reactive site. Our study highlights the utility of ABPP platforms in uncovering unique druggable modalities accessed by natural products for cancer therapy and drug discovery applications.