Your search keyword '"Rampulla RA"' showing total 13 results

1. Thiophene systems. 12. Analogues of ketanserin and ritanserin as selective 5-HT 2 antagonists

Author

Press, JB, Russell, RK, McNally, JJ, Rampulla, RA, Falotico, R, Scott, C, Moore, JB, Offord, SJ, and Tobia, J

Published

1991

2. Synthesis and renal vasodilator activity of substituted [4-alkyl(aryl)quinazolin-2-one-1-yl]alkanoic acids

Author

Russell, RK, Appollina, MA, Bandurco, V, Combs, DW, Kanojia, RM, Mallory, R, Malloy, E, McNally, JJ, Mulvey, DM, Gray-Nunez, Y, Rampulla, MS, Rampulla, RA, Sisk, SA, Williams, L, Levine, SD, Bell, SC, Giardino, EC, Falotico, R, and Tobia, AJ

Published

1992

3. Optimization of physicochemical properties of pyrrolidine GPR40 AgoPAMs results in a differentiated profile with improved pharmacokinetics and reduced off-target activities.

Author

Jurica EA, Wu X, Williams KN, Haque LE, Rampulla RA, Mathur A, Zhou M, Cao G, Cai H, Wang T, Liu H, Xu C, Kunselman LK, Antrilli TM, Hicks MB, Sun Q, Dierks EA, Apedo A, Moore DB, Foster KA, Cvijic ME, Panemangalore R, Khandelwal P, Wilkes JJ, Zinker BA, Robertson DG, Janovitz EB, Galella M, Li YX, Li J, Ramar T, Jalagam PR, Jayaram R, Whaley JM, Barrish JC, Robl JA, Ewing WR, and Ellsworth BA

Subjects

Rats, Animals, Receptors, G-Protein-Coupled, Glucagon-Like Peptide 1, Hypoglycemic Agents pharmacology, Pyrrolidines pharmacology, Pyrrolidines chemistry, Insulin, Blood Glucose, Hyperglycemia

Abstract

GPR40 AgoPAMs are highly effective antidiabetic agents that have a dual mechanism of action, stimulating both glucose-dependent insulin and GLP-1 secretion. The early lipophilic, aromatic pyrrolidine and dihydropyrazole GPR40 AgoPAMs from our laboratory were highly efficacious in lowering plasma glucose levels in rodents but possessed off-target activities and triggered rebound hyperglycemia in rats at high doses. A focus on increasing molecular complexity through saturation and chirality in combination with reducing polarity for the pyrrolidine AgoPAM chemotype resulted in the discovery of compound 46, which shows significantly reduced off-target activities as well as improved aqueous solubility, rapid absorption, and linear PK. In vivo, compound 46 significantly lowers plasma glucose levels in rats during an oral glucose challenge yet does not demonstrate the reactive hyperglycemia effect at high doses that was observed with earlier GPR40 AgoPAMs., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

4. Synthesis of Differentially Protected Azatryptophan Analogs via Pd 2 (dba) 3 /XPhos Catalyzed Negishi Coupling of N -Ts Azaindole Halides with Zinc Derivative from Fmoc-Protected tert -Butyl ( R )-2-Amino-3-iodopropanoate.

Author

Nimje RY, Vytla D, Kuppusamy P, Velayuthaperumal R, Jarugu LB, Reddy CA, Chikkananjaiah NK, Rampulla RA, Cavallaro CL, Li J, Mathur A, Gupta A, and Roy A

Abstract

Unnatural amino acids play an important role in peptide based drug discovery. Herein, we report a class of differentially protected azatryptophan derivatives synthesized from N -tosyl-3-haloazaindoles 1 and Fmoc-protected tert -butyl iodoalanine 2 via a Negishi coupling. Through ligand screening, Pd 2 (dba) 3 /XPhos was found to be a superior catalyst for the coupling of 1 with the zinc derivative of 2 to give tert -butyl ( S )-2-((((9 H -fluoren-9-yl)methoxy)carbonyl)amino)-3-(1-tosyl-1 H -pyrrolo[2,3- b ]pyridin-3-yl)propanoate derivatives 3 in 69-91% isolated yields. In addition, we have demonstrated that the protecting groups, namely, Ts, Fmoc, and t Bu, can be easily removed selectively.

Published

2020

5. Discovery of a High Affinity, Orally Bioavailable Macrocyclic FXIa Inhibitor with Antithrombotic Activity in Preclinical Species.

Author

Yang W, Wang Y, Lai A, Clark CG, Corte JR, Fang T, Gilligan PJ, Jeon Y, Pabbisetty KB, Rampulla RA, Mathur A, Kaspady M, Neithnadka PR, Arumugam A, Raju S, Rossi KA, Myers JE Jr, Sheriff S, Lou Z, Zheng JJ, Chacko SA, Bozarth JM, Wu Y, Crain EJ, Wong PC, Seiffert DA, Luettgen JM, Lam PYS, Wexler RR, and Ewing WR

Subjects

Administration, Oral, Animals, Biological Availability, Crystallography, X-Ray, Dogs, Drug Evaluation, Preclinical, Factor XIa chemistry, Factor XIa metabolism, Fibrinolytic Agents chemistry, Fibrinolytic Agents pharmacokinetics, Humans, Hydrophobic and Hydrophilic Interactions, Macrocyclic Compounds administration & dosage, Macrocyclic Compounds chemistry, Macrocyclic Compounds pharmacokinetics, Macrocyclic Compounds pharmacology, Models, Molecular, Rabbits, Structure-Activity Relationship, Factor XIa antagonists & inhibitors, Fibrinolytic Agents administration & dosage, Fibrinolytic Agents pharmacology

Abstract

Oral factor XIa (FXIa) inhibitors may provide a promising new antithrombotic therapy with an improved benefit to bleeding risk profile over existing antithrombotic agents. Herein, we report application of a previously disclosed cyclic carbamate P1 linker which provided improved oral bioavailability in the imidazole-based 13-membered macrocycle to the 12-membered macrocycle. This resulted in identification of compound 4 with desired FXIa inhibitory potency and good oral bioavailability but high in vivo clearance. Further structure-activity relationship (SAR) studies of heterocyclic core modifications to replace the imidazole core as well as various linkers to the P1 group led to the discovery of compound 6f , a potent FXIa inhibitor with selectivity against most of the relevant serine proteases. Compound 6f also demonstrated excellent pharmacokinetics (PK) profile (high oral bioavailability and low clearance) in multiple preclinical species. Compound 6f achieved robust antithrombotic efficacy in a rabbit efficacy model at doses which preserved hemostasis.

Published

2020

6. Optimization of Nicotinamides as Potent and Selective IRAK4 Inhibitors with Efficacy in a Murine Model of Psoriasis.

Author

Nair S, Kumar SR, Paidi VR, Sistla R, Kantheti D, Polimera SR, Thangavel S, Mukherjee AJ, Das M, Bhide RS, Pitts WJ, Murugesan N, Dudhgoankar S, Nagar J, Subramani S, Mazumder D, Carman JA, Holloway DA, Li X, Fereshteh MP, Ruepp S, Palanisamy K, Mariappan TT, Maddi S, Saxena A, Elzinga P, Chimalakonda A, Ruan Q, Ghosh K, Bose S, Sack J, Yan C, Kiefer SE, Xie D, Newitt JA, Saravanakumar SP, Rampulla RA, Barrish JC, Carter PH, and Hynes J Jr

Abstract

IRAK4 is an attractive therapeutic target for the treatment of inflammatory conditions. Structure guided optimization of a nicotinamide series of inhibitors has been expanded to explore the IRAK4 front pocket. This has resulted in the identification of compounds such as 12 with improved potency and selectivity. Additionally 12 demonstrated activity in a pharmacokinetics/pharmacodynamics (PK/PD) model. Further optimization efforts led to the identification of the highly kinome selective 21 , which demonstrated a robust PD effect and efficacy in a TLR7 driven model of murine psoriasis., Competing Interests: The authors declare no competing financial interest., (Copyright © 2020 American Chemical Society.)

Published

2020

7. Rationally Designed, Conformationally Constrained Inverse Agonists of RORγt-Identification of a Potent, Selective Series with Biologic-Like in Vivo Efficacy.

Author

Marcoux D, Duan JJ, Shi Q, Cherney RJ, Srivastava AS, Cornelius L, Batt DG, Liu Q, Beaudoin-Bertrand M, Weigelt CA, Khandelwal P, Vishwakrishnan S, Selvakumar K, Karmakar A, Gupta AK, Basha M, Ramlingam S, Manjunath N, Vanteru S, Karmakar S, Maddala N, Vetrichelvan M, Gupta A, Rampulla RA, Mathur A, Yip S, Li P, Wu DR, Khan J, Ruzanov M, Sack JS, Wang J, Yarde M, Cvijic ME, Li S, Shuster DJ, Borowski V, Xie JH, McIntyre KW, Obermeier MT, Fura A, Stefanski K, Cornelius G, Hynes J Jr, Tino JA, Macor JE, Salter-Cid L, Denton R, Zhao Q, Carter PH, and Dhar TGM

Subjects

Animals, Humans, Jurkat Cells, Mice, Models, Molecular, Nuclear Receptor Subfamily 1, Group F, Member 3 chemistry, Protein Conformation, Pyrrolidines chemistry, Pyrrolidines pharmacokinetics, Structure-Activity Relationship, Tissue Distribution, Drug Design, Drug Inverse Agonism, Nuclear Receptor Subfamily 1, Group F, Member 3 agonists, Pyrrolidines pharmacology

Abstract

RORγt is an important nuclear receptor that regulates the production of several pro-inflammatory cytokines such as IL-17 and IL-22. As a result, RORγt has been identified as a potential target for the treatment of various immunological disorders such as psoriasis, psoriatic arthritis, and inflammatory bowel diseases. Structure and computer-assisted drug design led to the identification of a novel series of tricyclic RORγt inverse agonists with significantly improved in vitro activity in the reporter (Gal4) and human whole blood assays compared to our previous chemotype. Through careful structure activity relationship, several potent and selective RORγt inverse agonists have been identified. Pharmacokinetic studies allowed the identification of the lead molecule 32 with a low peak-to-trough ratio. This molecule showed excellent activity in an IL-2/IL-23-induced mouse pharmacodynamic study and demonstrated biologic-like efficacy in an IL-23-induced preclinical model of psoriasis.

Published

2019

8. Discovery of Potent and Orally Bioavailable Dihydropyrazole GPR40 Agonists.

Author

Shi J, Gu Z, Jurica EA, Wu X, Haque LE, Williams KN, Hernandez AS, Hong Z, Gao Q, Dabros M, Davulcu AH, Mathur A, Rampulla RA, Gupta AK, Jayaram R, Apedo A, Moore DB, Liu H, Kunselman LK, Brady EJ, Wilkes JJ, Zinker BA, Cai H, Shu YZ, Sun Q, Dierks EA, Foster KA, Xu C, Wang T, Panemangalore R, Cvijic ME, Xie C, Cao GG, Zhou M, Krupinski J, Whaley JM, Robl JA, Ewing WR, and Ellsworth BA

Subjects

Administration, Oral, Animals, Biological Availability, Humans, Male, Mice, Models, Molecular, Molecular Conformation, Pyrazoles administration & dosage, Pyrazoles chemistry, Pyrrolidines chemistry, Drug Discovery, Pyrazoles pharmacokinetics, Pyrazoles pharmacology, Receptors, G-Protein-Coupled agonists

Abstract

G protein-coupled receptor 40 (GPR40) has become an attractive target for the treatment of diabetes since it was shown clinically to promote glucose-stimulated insulin secretion. Herein, we report our efforts to develop highly selective and potent GPR40 agonists with a dual mechanism of action, promoting both glucose-dependent insulin and incretin secretion. Employing strategies to increase polarity and the ratio of sp 3 /sp 2 character of the chemotype, we identified BMS-986118 (compound 4), which showed potent and selective GPR40 agonist activity in vitro. In vivo, compound 4 demonstrated insulinotropic efficacy and GLP-1 secretory effects resulting in improved glucose control in acute animal models.

Published

2018

9. Potent Inhibitors of Hepatitis C Virus NS3 Protease: Employment of a Difluoromethyl Group as a Hydrogen-Bond Donor.

Author

Zheng B, D'Andrea SV, Sun LQ, Wang AX, Chen Y, Hrnciar P, Friborg J, Falk P, Hernandez D, Yu F, Sheaffer AK, Knipe JO, Mosure K, Rajamani R, Good AC, Kish K, Tredup J, Klei HE, Paruchuri M, Ng A, Gao Q, Rampulla RA, Mathur A, Meanwell NA, McPhee F, and Scola PM

Abstract

The design and synthesis of potent, tripeptidic acylsulfonamide inhibitors of HCV NS3 protease that contain a difluoromethyl cyclopropyl amino acid at P1 are described. A cocrystal structure of 18 with a NS3/4A protease complex suggests the presence of a H-bond between the polarized C-H of the CHF 2 moiety and the backbone carbonyl of Leu135 of the enzyme. Structure-activity relationship studies indicate that this H-bond enhances enzyme inhibitory potency by 13- and 17-fold compared to the CH 3 and CF 3 analogues, respectively, providing insight into the deployment of this unique amino acid., Competing Interests: The authors declare no competing financial interest.

Published

2018

10. Identification of a Potent, Selective, and Efficacious Phosphatidylinositol 3-Kinase δ (PI3Kδ) Inhibitor for the Treatment of Immunological Disorders.

Author

Liu Q, Shi Q, Marcoux D, Batt DG, Cornelius L, Qin LY, Ruan Z, Neels J, Beaudoin-Bertrand M, Srivastava AS, Li L, Cherney RJ, Gong H, Watterson SH, Weigelt C, Gillooly KM, McIntyre KW, Xie JH, Obermeier MT, Fura A, Sleczka B, Stefanski K, Fancher RM, Padmanabhan S, Rp T, Kundu I, Rajareddy K, Smith R, Hennan JK, Xing D, Fan J, Levesque PC, Ruan Q, Pitt S, Zhang R, Pedicord D, Pan J, Yarde M, Lu H, Lippy J, Goldstine C, Skala S, Rampulla RA, Mathur A, Gupta A, Arunachalam PN, Sack JS, Muckelbauer JK, Cvijic ME, Salter-Cid LM, Bhide RS, Poss MA, Hynes J, Carter PH, Macor JE, Ruepp S, Schieven GL, and Tino JA

Subjects

Animals, Antigens, CD metabolism, Antigens, Differentiation, T-Lymphocyte metabolism, Caco-2 Cells drug effects, Caco-2 Cells immunology, Dogs, ERG1 Potassium Channel metabolism, Enzyme Inhibitors chemistry, Female, Humans, Immune System Diseases drug therapy, Isoenzymes antagonists & inhibitors, Isoenzymes metabolism, Lectins, C-Type metabolism, Male, Mice, Inbred BALB C, Pyrazoles chemistry, Pyrazoles metabolism, Pyrazoles pharmacology, Rabbits, Arthritis, Experimental drug therapy, Drug Evaluation, Preclinical methods, Enzyme Inhibitors pharmacology, Phosphoinositide-3 Kinase Inhibitors, Structure-Activity Relationship

Abstract

PI3Kδ plays an important role controlling immune cell function and has therefore been identified as a potential target for the treatment of immunological disorders. This article highlights our work toward the identification of a potent, selective, and efficacious PI3Kδ inhibitor. Through careful SAR, the successful replacement of a polar pyrazole group by a simple chloro or trifluoromethyl group led to improved Caco-2 permeability, reduced Caco-2 efflux, reduced hERG PC activity, and increased selectivity profile while maintaining potency in the CD69 hWB assay. The optimization of the aryl substitution then identified a 4'-CN group that improved the human/rodent correlation in microsomal metabolic stability. Our lead molecule is very potent in PK/PD assays and highly efficacious in a mouse collagen-induced arthritis model.

Published

2017

11. Discovery of Pyrrolidine-Containing GPR40 Agonists: Stereochemistry Effects a Change in Binding Mode.

Author

Jurica EA, Wu X, Williams KN, Hernandez AS, Nirschl DS, Rampulla RA, Mathur A, Zhou M, Cao G, Xie C, Jacob B, Cai H, Wang T, Murphy BJ, Liu H, Xu C, Kunselman LK, Hicks MB, Sun Q, Schnur DM, Sitkoff DF, Dierks EA, Apedo A, Moore DB, Foster KA, Cvijic ME, Panemangalore R, Flynn NA, Maxwell BD, Hong Y, Tian Y, Wilkes JJ, Zinker BA, Whaley JM, Barrish JC, Robl JA, Ewing WR, and Ellsworth BA

Subjects

Animals, Blood Glucose analysis, Blood Glucose metabolism, Cell Line, Cells, Cultured, Diabetes Mellitus, Type 2 blood, Diabetes Mellitus, Type 2 drug therapy, Diabetes Mellitus, Type 2 metabolism, Glucagon-Like Peptide 1 metabolism, Humans, Hypoglycemic Agents chemistry, Hypoglycemic Agents pharmacokinetics, Hypoglycemic Agents therapeutic use, Insulin metabolism, Male, Mice, Inbred C57BL, Models, Molecular, Pyrrolidines chemistry, Pyrrolidines pharmacokinetics, Pyrrolidines therapeutic use, Rats, Receptors, G-Protein-Coupled metabolism, Hypoglycemic Agents pharmacology, Pyrrolidines pharmacology, Receptors, G-Protein-Coupled agonists

Abstract

A novel series of pyrrolidine-containing GPR40 agonists is described as a potential treatment for type 2 diabetes. The initial pyrrolidine hit was modified by moving the position of the carboxylic acid, a key pharmacophore for GPR40. Addition of a 4-cis-CF 3 to the pyrrolidine improves the human GPR40 binding K i and agonist efficacy. After further optimization, the discovery of a minor enantiomeric impurity with agonist activity led to the finding that enantiomers (R,R)-68 and (S,S)-68 have differential effects on the radioligand used for the binding assay, with (R,R)-68 potentiating the radioligand and (S,S)-68 displacing the radioligand. Compound (R,R)-68 activates both G q -coupled intracellular Ca 2+ flux and G s -coupled cAMP accumulation. This signaling bias results in a dual mechanism of action for compound (R,R)-68, demonstrating glucose-dependent insulin and GLP-1 secretion in vitro. In vivo, compound (R,R)-68 significantly lowers plasma glucose levels in mice during an oral glucose challenge, encouraging further development of the series.

Published

2017

12. Design, synthesis and bronchodilatory activity of a series of quinazoline-3-oxides.

Author

Combs DW, Rampulla MS, Russell RK, Rampulla RA, Klaubert DH, Ritchie D, Meeks AS, and Kirchner T

Subjects

Animals, Bronchial Spasm chemically induced, Bronchial Spasm prevention & control, Bronchodilator Agents chemistry, Bronchodilator Agents pharmacology, Dogs, Drug Design, Female, Guinea Pigs, Hemodynamics drug effects, Leukotrienes physiology, Magnetic Resonance Spectroscopy, Male, Ovalbumin immunology, Pilocarpine pharmacology, Quinazolines chemistry, Quinazolines pharmacology, Theophylline pharmacology, Bronchodilator Agents chemical synthesis, Quinazolines chemical synthesis

Abstract

A synthetic program of rational drug design was undertaken to develop a series of quinazoline-3-oxides as pulmonary-selective inhibitors of ovalbumin-induced, leukotriene-mediated bronchoconstriction. The most active and selective compounds contained a methyl group at the 4-position, a medium sized branched alkyl group at the 2-position, and a small electron donating group on the phenyl ring. Significant enhancement in selectivity was observed in comparing the pulmonary versus cardiovascular effects of these new bronchodilators with the effects of theophylline.

Published

1990

13. Thiophene systems. 9. Thienopyrimidinedione derivatives as potential antihypertensive agents.

Author

Russell RK, Press JB, Rampulla RA, McNally JJ, Falotico R, Keiser JA, Bright DA, and Tobia A

Subjects

Animals, Blood Pressure drug effects, Chemical Phenomena, Chemistry, Dose-Response Relationship, Drug, Kinetics, Phenylephrine pharmacology, Prazosin pharmacology, Pyrimidines chemical synthesis, Pyrimidines pharmacology, Rats, Rats, Inbred SHR, Receptors, Adrenergic, alpha drug effects, Receptors, Adrenergic, alpha physiology, Structure-Activity Relationship, Thiophenes chemical synthesis, Thiophenes pharmacology, Hypertension drug therapy, Pyrimidines therapeutic use, Thiophenes therapeutic use

Abstract

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.

Published

1988