Sherri L. Andis
Eli Lilly and Company
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Featured researches published by Sherri L. Andis.
Cancer Chemotherapy and Pharmacology | 1997
John L. Tonkinson; Philip Marder; Sherri L. Andis; Richard M. Schultz; Lynn S. Gossett; Chuan Shih; Laurane G. Mendelsohn
Abstract Purpose: Cell cycle-related events in CCRF-CEM lymphocytic leukemia cells were examined subsequent to inhibition of thymidylate synthase (TS) or GAR formyltransferase (GARFT) and prior to cell death or stasis. Methods: Cell populations were treated with the GARFT inhibitors 6R-5,10-dideazatetrahydrofolate (lometrexol) or LY309887, the TS inhibitor ZD1694, or the multitargeted antifolate LY231514. DNA content, nucleoside precursor incorporation and proliferating cell nuclear antigen (PCNA) expression as functions of drug treatment were assessed by multiparameter flow cytometry. Cellular respiration was measured by MTT analysis and apoptosis was detected by extraction of DNA fragments. Results: Cell populations treated for up to 96 h with lometrexol or LY309887 did not replicate and maintained a cell cycle distribution with distinct G1, S and G2/M regions. The number of S phase cells in treated populations was slightly elevated relative to control as measured by DNA content and PCNA. However, these cells were unable to incorporate 5-bromodeoxyuridine (BrdU). Throughout treatment, cells incubated with GARFT inhibitors maintained intact membranes and respired at a level comparable to untreated cells. In contrast, ZD1694 as well as LY231514, induced synchronization of the treatment population at the G1/S interface within 12 h of drug addition. This was followed by synchronous entry of the population into S phase. After 24 h of treatment, more than 90% of the cells were capable of incorporating BrdU and stained positive for PCNA. DNA fragmentation occurred in cells treated with ZD1694 or LY231514 but not in those treated with GARFT inhibitors. In addition, the viable cells remaining after 24–48 h of treatment with ZD1694 or LY231514 were respiring at twice the level of untreated cells. Conclusion: These results demonstrate that the distinct endpoints of GARFT and TS inhibition are preceded by distinct cell cycle and metabolic alterations.
Bioorganic & Medicinal Chemistry Letters | 1999
David L. Varie; Chuan Shih; David A. Hay; Sherri L. Andis; Tom H. Corbett; Lynn S. Gossett; Samantha K. Janisse; Michael J. Martinelli; Eric D. Moher; Richard M. Schultz; John E. Toth
Analogs of the antitumor agents cryptophycins 1 and 8 with dialkyl substitution at C-6 (fragment C) were synthesized and evaluated for in vitro cytotoxicity against human leukemia cells (CCRF-CEM). The activity of these analogs decreased as the size of the substituents at C-6 increased. The C-6 spirocylopropyl compound (2g) was highly potent in vitro and showed excellent antitumor activity in animal models.
Bioorganic & Medicinal Chemistry Letters | 1996
Lynn S. Gossett; Lillian L. Habeck; Susan B. Gates; Sherri L. Andis; John F. Worzalla; Richard M. Schultz; Laurane G. Mendelsonn; William Kohler; Manohar Ratnam; Gerald B. Grindey; Chuan Shih
Abstract A novel series of dihydrofolate reductase inhibitors was uncovered during an expansion of the SAR of 5,10-dideazatetrahydrofolic acid, and their biological activity was evaluated. These new analogs do not possess an oxygen at the 4 position and contain a monocyclic pyrimidine ring.
Bioorganic & Medicinal Chemistry Letters | 1999
Lynn S. Gossett; Lillian L. Habeck; Katherine A. Shackelford; Laurane G. Mendelsohn; Susan B. Gates; John F. Worzalla; Tracy D. Self; Karla S. Theobald; Sherri L. Andis; Richard M. Schultz; Chuan Shih
A new series of 2,4-diaminopyrido[2,3-d]pyrimidine based antifolates 1-3 were synthesized through an efficient conversion of 2-pivaloyl-4-oxo-6-ethynylpyrido[2,3-d]pyrimidine 5 to the corresponding 4-amino analog 7 via the activated 1,2,4-triazole intermediate 6. Compound 7 was used as the key intermediate for the preparation of the final products. The detailed biological evaluation of these compounds both as antineoplastic and antiarthritic agents will be discussed.
Cancer Research | 1997
Chuan Shih; Victor J. Chen; Lynn S. Gossett; Susan B. Gates; Warren Cameron Mackellar; Lillian L. Habeck; Katherine A. Shackelford; Lurane G. Mendelsohn; Daniel J. Soose; Vinod F. Patel; Sherri L. Andis; Jesse R. Bewley; Elizabeth A. Rayl; Barbara A. Moroson; G. Peter Beardsley; William Kohler; Manshan Ratnam; Richard M. Schultz
Journal of Medicinal Chemistry | 1999
James A. Monn; Matthew John Valli; Steven Marc Massey; Marvin M. Hansen; Thomas J. Kress; James P. Wepsiec; Allen R. Harkness; John L. Grutsch; Rebecca A. Wright; Bryan G. Johnson; Sherri L. Andis; Ann E. Kingston; Rosemarie Tomlinson; Richard J. Lewis; Kelly R. Griffey; Joseph P. Tizzano; Darryle D. Schoepp
Cancer Research | 1994
Lillian L. Habeck; Tracy A. Leitner; Katherine A. Shackelford; Lynn S. Gossett; Richard M. Schultz; Sherri L. Andis; Chuan Shih; Gerald B. Grindey; Laurane G. Mendelsohn
Journal of Medicinal Chemistry | 2007
James A. Monn; Steven Marc Massey; Matthew John Valli; Steven S. Henry; Gregory A. Stephenson; Mark G. Bures; M. Herin; John T. Catlow; Deborah D. Giera; Rebecca A. Wright; Bryan G. Johnson; Sherri L. Andis; and Ann Kingston; Darryle D. Schoepp
Bioorganic & Medicinal Chemistry Letters | 2004
David Anthony Barda; Zhao-Qing Wang; Thomas C. Britton; Steven S. Henry; G. Erik Jagdmann; Darrell Stephen Coleman; Michael P. Johnson; Sherri L. Andis; Darryle D. Schoepp
Journal of Medicinal Chemistry | 2005
Carmen Dominguez; Lourdes Prieto; Matthew John Valli; Steven Marc Massey; Mark G. Bures; Rebecca A. Wright; Bryan G. Johnson; Sherri L. Andis; Ann E. Kingston; and Darryle D. Schoepp; James A. Monn
