Stephen T. Worland | Researchain

Archive Network Publication Hotspot Collaboration

Network

Latest external collaboration on country level. Dive into details by clicking on the dots.

Explore More

Hotspot

Dive into the research topics where Stephen T. Worland is active.

Explore More

Publication

Featured researches published by Stephen T. Worland.

Bioorganic & Medicinal Chemistry Letters | 2000

Structure-Based Design of Ketone-Containing, Tripeptidyl Human Rhinovirus 3C Protease Inhibitors

Peter S. Dragovich; Ru Zhou; Stephen E. Webber; Thomas J. Prins; Annette K. Kwok; Koji Okano; Shella A. Fuhrman; Leora S. Zalman; Fausto C. Maldonado; Edward L. Brown; James W. Meador; Amy K. Patick; Clifford E. Ford; Susan L. Binford; David A. Matthews; Rose Ann Ferre; Stephen T. Worland

Tripeptide-derived molecules incorporating C-terminal ketone electrophiles were evaluated as reversible inhibitors of the cysteine-containing human rhinovirus 3C protease (3CP). An optimized example of such compounds displayed potent 3CP inhibition activity (K = 0.0045 microM) and in vitro antiviral properties (EC50=0.34 microM) when tested against HRV serotype-14.

Bioorganic & Medicinal Chemistry | 1999

Solid-phase synthesis of irreversible human rhinovirus 3C protease inhibitors. Part 1: Optimization of tripeptides incorporating N-terminal amides.

Peter S. Dragovich; Ru Zhou; Donald J. Skalitzky; Shella A. Fuhrman; Amy K. Patick; Clifford E. Ford; James W. Meador; Stephen T. Worland

The optimization of a series of irreversible human rhinovirus (HRV) 3C protease (3CP) inhibitors is described. These inhibitors are comprised of an L-Leu-L-Phe-L-Gln tripeptide containing an N-terminal amide moiety and a C-terminal ethyl propenoate Michael acceptor. Examination of approximately 500 compounds with varying N-terminal amides utilizing solid-phase synthesis and high-throughput assay techniques is described along with the solution phase preparation of several highly active molecules. A tripeptide Michael acceptor containing an N-terminal amide derived from 5-methylisoxazole-3-carboxylic acid is shown to exhibit potent, irreversible anti-3CP activity (k(obs)/[I] = 260,000 M(-1) s(-1); type-14 3CP) and broad-spectrum antirhinoviral properties (average EC50 = 0.47 microM against four different HRV serotypes).

Bioorganic & Medicinal Chemistry Letters | 1999

Structure-based design of irreversible, tripeptidyl human rhinovirus 3C protease inhibitors containing N-methyl amino acids.

Peter S. Dragovich; Stephen E. Webber; Thomas J. Prins; Ru Zhou; Joseph Timothy Marakovits; Jayashree Girish Tikhe; Shella A. Fuhrman; Amy K. Patick; David A. Matthews; Clifford E. Ford; Edward L. Brown; Susan L. Binford; James W. Meador; Rose Ann Ferre; Stephen T. Worland

Tripeptide-derived molecules incorporating N-methyl amino acid residues and C-terminal Michael acceptor moieties were evaluated as irreversible inhibitors of the cysteine-containing human rhinovirus 3C protease (3CP). Such compounds displayed good 3CP inhibition activity (k(obs)/[I] up to 610,000 M(-1) s(-1)) and potent in vitro antiviral properties (EC50 approaching 0.03 microM) when tested against HRV serotype-14.

Bioorganic & Medicinal Chemistry Letters | 2001

Design and synthesis of irreversible depsipeptidyl human rhinovirus 3C protease inhibitors.

Stephen E. Webber; Joseph Timothy Marakovits; Peter S. Dragovich; Thomas J. Prins; Ru Zhou; Shella A. Fuhrman; Amy K. Patick; David A. Matthews; Caroline A. Lee; Babu Srinivasan; Terry Moran; Clifford E. Ford; James E.V. Harr; James W. Meador; Rose Ann Ferre; Stephen T. Worland

Novel tripeptidyl C-terminal Michael acceptors with an ester replacement of the P(2)-P(3) amide bond were investigated as irreversible inhibitors of the human rhinovirus (HRV) 3C protease (3CP). When screened against HRV serotype-14 the best compound was shown to have very good 3CP inhibition (k(obs)/[I]=270,000M(-1)s(-1)) and potent in vitro antiviral activity (EC(50)=7.0nM).

Cell | 1994

Structure of human rhinovirus 3C protease reveals a trypsin-like polypeptide fold, RNA-binding site, and means for cleaving precursor polyprotein

David A. Matthews; Ward W. Smith; Rose Ann Ferre; Brad Condon; Gregg Budahazi; Wes Slsson; J.E. Villafranca; Janson Ca; H.E. McElroy; C.L. Gribskov; Stephen T. Worland

Journal of Medicinal Chemistry | 1999

Structure-based design, synthesis, and biological evaluation of irreversible human rhinovirus 3C protease inhibitors. 4. Incorporation of P1 lactam moieties as L-glutamine replacements.

Peter S. Dragovich; Thomas J. Prins; Ru Zhou; Stephen E. Webber; Joseph Timothy Marakovits; Shella A. Fuhrman; Amy K. Patick; David A. Matthews; Caroline A. Lee; Clifford E. Ford; Benjamin J. Burke; Paul A. Rejto; Thomas F. Hendrickson; Tove Tuntland; Edward L. Brown; James W. Meador; Rose Ann Ferre; James E.V. Harr; Maha B. Kosa; Stephen T. Worland

Journal of Medicinal Chemistry | 1998

Structure-based design, synthesis, and biological evaluation of irreversible human rhinovirus 3C protease inhibitors. 2. Peptide structure-activity studies.

Peter S. Dragovich; Stephen E. Webber; Robert E. Babine; Shella A. Fuhrman; Amy K. Patick; David A. Matthews; Siegfried Heinz Reich; Joseph Timothy Marakovits; Thomas J. Prins; Ru Zhou; Jayashree Girish Tikhe; Ethel S. Littlefield; Ted M. Bleckman; Michael B. Wallace; Thomas L. Little; Clifford E. Ford; James W. Meador; Rose Ann Ferre; Edward L. Brown; Susan L. Binford; and Dorothy M. DeLisle; Stephen T. Worland

Journal of Medicinal Chemistry | 1996

Design, synthesis, and evaluation of nonpeptidic inhibitors of human rhinovirus 3C protease.

Stephen E. Webber; Jayashree Girish Tikhe; Stephen T. Worland; Shella A. Fuhrman; Thomas F. Hendrickson; David A. Matthews; Robert Love; Amy K. Patick; James W. Meador; Rose Ann Ferre; Edward L. Brown; Dorothy M. DeLisle; Clifford E. Ford; Susan L. Binford

Journal of Medicinal Chemistry | 2002

Structure-Based Design, Synthesis, and Biological Evaluation of Irreversible Human Rhinovirus 3C Protease Inhibitors. 6. Structure−Activity Studies of Orally Bioavailable, 2-Pyridone-Containing Peptidomimetics

Peter S. Dragovich; Thomas J. Prins; Ru Zhou; Edward L. Brown; Fausto C. Maldonado; Shella A. Fuhrman; Leora S. Zalman; Tove Tuntland; Caroline A. Lee; Amy K. Patick; David A. Matthews; Thomas F. Hendrickson; Maha B. Kosa; Bo Liu; Minerva R. Batugo; Jean-Paul R. Gleeson; Sylvie K. Sakata; Lijian Chen; Mark C. Guzman; James W. Meador; and Rose Ann Ferre; Stephen T. Worland

Journal of Medicinal Chemistry | 1998

Tripeptide aldehyde inhibitors of human rhinovirus 3C protease : Design, synthesis, biological evaluation, and cocrystal structure solution of P1 glutamine isosteric replacements

Stephen E. Webber; Koji Okano; Thomas L. Little; Siegfried Heinz Reich; Yue Xin; Shella A. Fuhrman; David A. Matthews; Robert A. Love; Thomas F. Hendrickson; Amy K. Patick; James W. Meador; Rose Ann Ferre; Edward L. Brown; Clifford E. Ford; Susan L. Binford; Stephen T. Worland

Explore More