Ronald K. Russell scite author profile

A new class of inhibitors of the two-component regulatory systems (TCS) of bacteria was discovered based on the salicylanilide screening hits, closantel (1) and tetrachlorosalicylanilide (9). A systematic SAR study versus a model TCS, KinA/Spo0F, demonstrated the importance of electron-attracting substituents in the salicyloyl ring and hydrophobic groups in the anilide moiety for optimal activity. In addition, derivatives 8 and 16, containing the 2, 3-dihydroxybenzanilide structural motif, were potent inhibitors of the autophosphorylation of the KinA kinase, with IC50s of 2.8 and 6. 3 µM, respectively. Compound 8 also inhibited the TCS mediating vancomycin resistance (VanS/VanR) in a genetically engineered Enterococcus faecalis cell line at concentrations subinhibitory for growth. Closantel (1), tetrachlorosalicylanilide (9), and several related derivatives (2, 7, 10, 11, 20) had antibacterial activity against the drug-resistant organisms, methicillin-resistant Staphylococcus aureus (MRSA) and vancomycin-resistant Enterococcus faecium (VREF).

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Thiophene systems. 9. Thienopyrimidinedione derivatives as potential antihypertensive agents

Russell

Press²,

Rampulla³

et al. 1988

J. Med. Chem.

163

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A series of thieno[3,4-d]-, thieno[3,2-d]-, and thieno[2,3-d]pyrimidine-2,4-diones with (phenylpiperazinyl)alkyl substitution at N-3 have been synthesized and evaluated for antihypertensive effects in spontaneously hypertensive rats (SHR). These 49 compounds were compared to the vasodilator standards prazosin and the isosteric quinazoline-2,4-dione SGB 1534. Substitution at the 2-, 3-, or 4-position of the phenyl ring was examined, with that at the 2-position more potent than 4-substitution while the isomeric 3-substituted compounds were least potent. Neither alkylation nor acylation at the N-1 position improved the antihypertensive effects as compared to hydrogen. The three thienopyrimidine-2,4-diones (3-5) that contain a [(2-methoxyphenyl)piperazinyl]ethyl moiety at N-3 and hydrogen at N-1 were found to be potent oral antihypertensive agents in the SHR with doses (mg/kg, po) for reducing systolic blood pressure (SBP) by 50 mmHg (ED-50SBP) of 0.21, 0.19, and 1.0, respectively. The compounds 1-5 were further evaluated for alpha blocking potency by measuring the iv doses necessary to antagonize the phenylephrine pressor response by 50% (ED50) in the SHR. The ED50 values (micrograms/kg) are 10.4, 3.3, 1.7, 2.1, and 15.4, respectively. These results clearly show that all three thiophene systems have potent activity as antihypertensive agents and that 3 and 4 are more potent than 1 or 2 as alpha 1-antagonists in vivo.

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Directed syntheses of the isomeric dimethylcyclooctatetraenes and a study of their polarographic and alkali metal reduction

Paquette¹,

Ley²,

Meisinger³

et al. 1974

J. Am. Chem. Soc.

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Design and Characterization of Optimized Adenosine A_2A/A₁ Receptor Antagonists for the Treatment of Parkinson's Disease

et al. 2012

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The design and characterization of two, dual adenosine A(2A)/A(1) receptor antagonists in several animal models of Parkinson's disease is described. Compound 1 was previously reported as a potential treatment for Parkinson's disease. Further characterization of 1 revealed that it was metabolized to reactive intermediates that caused the genotoxicity of 1 in the Ames and mouse lymphoma L51784 assays. The identification of the metabolites enabled the preparation of two optimized compounds 13 and 14 that were devoid of the metabolic liabilities associated with 1. Compounds 13 and 14 are potent dual A(2A)/A(1) receptor antagonists that have excellent activity, after oral administration, across a number of animal models of Parkinson's disease including mouse and rat models of haloperidol-induced catalepsy, mouse and rat models of reserpine-induced akinesia, and the rat 6-hydroxydopamine (6-OHDA) lesion model of drug-induced rotation.

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In Vivo Characterization of a Dual Adenosine A_2A/A₁ Receptor Antagonist in Animal Models of Parkinson’s Disease

et al. 2010

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The in vivo characterization of a dual adenosine A(2A)/A(1) receptor antagonist in several animal models of Parkinson's disease is described. Discovery and scale-up syntheses of compound 1 are described in detail, highlighting optimization steps that increased the overall yield of 1 from 10.0% to 30.5%. Compound 1 is a potent A(2A)/A(1) receptor antagonist in vitro (A(2A) K(i) = 4.1 nM; A(1) K(i) = 17.0 nM) that has excellent activity, after oral administration, across a number of animal models of Parkinson's disease including mouse and rat models of haloperidol-induced catalepsy, mouse model of reserpine-induced akinesia, rat 6-hydroxydopamine (6-OHDA) lesion model of drug-induced rotation, and MPTP-treated non-human primate model.

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Ronald K. Russell

Substituted Salicylanilides as Inhibitors of Two-Component Regulatory Systems in Bacteria

Thiophene systems. 9. Thienopyrimidinedione derivatives as potential antihypertensive agents

Directed syntheses of the isomeric dimethylcyclooctatetraenes and a study of their polarographic and alkali metal reduction

Design and Characterization of Optimized Adenosine A_2A/A₁ Receptor Antagonists for the Treatment of Parkinson's Disease

In Vivo Characterization of a Dual Adenosine A_2A/A₁ Receptor Antagonist in Animal Models of Parkinson’s Disease

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Ronald K. Russell

Substituted Salicylanilides as Inhibitors of Two-Component Regulatory Systems in Bacteria

Thiophene systems. 9. Thienopyrimidinedione derivatives as potential antihypertensive agents

Directed syntheses of the isomeric dimethylcyclooctatetraenes and a study of their polarographic and alkali metal reduction

Design and Characterization of Optimized Adenosine A2A/A1 Receptor Antagonists for the Treatment of Parkinson's Disease

In Vivo Characterization of a Dual Adenosine A2A/A1 Receptor Antagonist in Animal Models of Parkinson’s Disease

Contact Info

Product

Resources

About

Design and Characterization of Optimized Adenosine A_2A/A₁ Receptor Antagonists for the Treatment of Parkinson's Disease

In Vivo Characterization of a Dual Adenosine A_2A/A₁ Receptor Antagonist in Animal Models of Parkinson’s Disease