Joseph E. Payne scite author profile

There are three isoforms of dimeric nitric oxide synthases (NOS) that convert arginine to citrulline and nitric oxide. Inducible NOS is implicated in numerous inflammatory diseases and, more recently, in neuropathic pain states. The majority of existing NOS inhibitors are either based on the structure of arginine or are substrate competitive. We describe the identification from an ultra high-throughput screen of a novel series of quinolinone small molecule, nonarginine iNOS dimerization inhibitors. SAR studies on the screening hit, coupled with an in vivo lipopolysaccharide (LPS) challenge assay measuring plasma nitrates and drug levels, rapidly led to the identification of compounds 12 and 42--potent inhibitors of the human and mouse iNOS enzyme that were highly selective over endothelial NOS (eNOS). Following oral dosing, compounds 12 and 42 gave a statistical reduction in pain behaviors in the mouse formalin model, while 12 also statistically reduced neuropathic pain behaviors in the chronic constriction injury (Bennett) model.

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KD5170, a novel mercaptoketone-based histone deacetylase inhibitor, exerts antimyeloma effects by DNA damage and mitochondrial signaling

Feng

Hassig³

et al. 2008

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Discovery of Dual Inducible/Neuronal Nitric Oxide Synthase (iNOS/nNOS) Inhibitor Development Candidate 4-((2-Cyclobutyl-1H-imidazo[4,5-b]pyrazin-1-yl)methyl)-7,8-difluoroquinolin-2(1H)-one (KD7332) Part 2: Identification of a Novel, Potent, and Selective Series of Benzimidazole-Quinolinone iNOS/nNOS Dimerization Inhibitors That Are Orally Active in Pain Models

Payne¹,

Bonnefous²,

Symons³

et al. 2010

J. Med. Chem.

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Three isoforms of nitric oxide synthase (NOS), dimeric enzymes that catalyze the formation of nitric oxide (NO) from arginine, have been identified. Inappropriate or excessive NO produced by iNOS and/or nNOS is associated with inflammatory and neuropathic pain. Previously, we described the identification of a series of amide-quinolinone iNOS dimerization inhibitors that although potent, suffered from high clearance and limited exposure in vivo. By conformationally restricting the amide of this progenitor series, we describe the identification of a novel series of benzimidazole-quinolinone dual iNOS/nNOS inhibitors with low clearance and sustained exposure in vivo. Compounds were triaged utilizing an LPS challenge assay coupled with mouse and rhesus pharmacokinetics and led to the identification of 4,7-imidazopyrazine 42 as the lead compound. 42 (KD7332) (J. Med. Chem. 2009, 52, 3047 - 3062) was confirmed as an iNOS dimerization inhibitor and was efficacious in the mouse formalin model of nociception and Chung model of neuropathic pain, without showing tolerance after repeat dosing. Further 42 did not affect motor coordination up to doses of 1000 mg/kg, demonstrating a wide therapeutic margin.

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Immune modulatory nanoparticle therapeutics for intracerebral glioma

Yaghi¹,

Wei²,

Hashimoto³

et al. 2016

NEUONC

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372Most preclinical therapeutic studies of microRNAs (miRs) and small interfering (si)RNAs have provided "proof of principle" that upon ex vivo transfection of cancer cells, a therapeutic effect can be obtained. [1][2][3] We previously demonstrated that the need to transfect could potentially be overcome by using miR to directly modulate the immune system and initiate antitumor cytotoxicity. 4 Malignant cells express various antigens recognized by the immune system, but antitumor cytotoxicity is restrained by signal transducer and activator of transcription 3 (STAT3) signaling. [5][6][7][8] We have identified miR-124 as a key regulator of the STAT3 pathway and shown that systemically administered miR-124 has marked therapeutic effects in preclinical malignancy models, including in established, heterogeneous, highgrade, genetically engineered murine models during late stages of gliomagenesis. 4 These therapeutic effects encompass marked enhancement of antitumor immunity, including interferon (IFN)-γ responses, and reversal of tumor-mediated immunosuppression. 4 AbstractBackground. Previously we showed therapeutic efficacy of unprotected miR-124 in preclinical murine models of glioblastoma, including in heterogeneous genetically engineered murine models by exploiting the immune system and thereby negating the need for direct tumor delivery. Although these data were promising, to implement clinical trials, we required a scalable formulation that afforded protection against circulatory RNases. Methods. We devised lipid nanoparticles that encapsulate and protect the miRs from degradation and provide enhanced delivery into the immune cell compartment and tested in vivo antitumor effects. Results. Treatment with nanoparticle-encapsulated miR-124, LUNAR-301, demonstrated a median survival exceeding 70 days, with an associated reversal of tumor-mediated immunosuppression and induction of immune memory. In both canine and murine models, the safety profile of LUNAR-301 was favorable. Conclusions. For the first time, we show that nanoparticles can direct a therapeutic response by targeting intracellular immune pathways. Although shown in the context of gliomas, this therapeutic approach would be applicable to other malignancies.

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Property-Driven Design and Development of Lipids for Efficient Delivery of siRNA

et al. 2020

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Ionizable cationic lipids are critical components involved in nanoparticle formulations, which are utilized in delivery platforms for RNA therapeutics. While general criteria regarding lipophilicity and measured pK a in formulation are understood to have impacts on utility in vivo, greater granularity with respect to the impacts of the structure on calculated and measured physicochemical parameters and the subsequent performance of those ionizable cationic lipids in in vivo studies would be beneficial. Herein, we describe structural alterations made within a lipid class exemplified by 4, which allow us to tune calculated and measured physicochemical parameters for improved performance, resulting in substantial improvements versus the state of the art at the outset of these studies, resulting in good in vivo activity within a range of measured basicity (pK a = 6.0–6.6) and lipophilicity (cLogD = 10–14).

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Joseph E. Payne

Discovery of Inducible Nitric Oxide Synthase (iNOS) Inhibitor Development Candidate KD7332, Part 1: Identification of a Novel, Potent, and Selective Series of Quinolinone iNOS Dimerization Inhibitors that are Orally Active in Rodent Pain Models

KD5170, a novel mercaptoketone-based histone deacetylase inhibitor, exerts antimyeloma effects by DNA damage and mitochondrial signaling

Immune modulatory nanoparticle therapeutics for intracerebral glioma

Property-Driven Design and Development of Lipids for Efficient Delivery of siRNA

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