Timm Baumeister
Genentech
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Publication
Featured researches published by Timm Baumeister.
Journal of Medicinal Chemistry | 2013
Xiaozhang Zheng; Paul H. Bauer; Timm Baumeister; Alexandre J. Buckmelter; Maureen Caligiuri; Karl H. Clodfelter; Bingsong Han; Yen-Ching Ho; Nikolai Kley; Jian Lin; Dominic J. Reynolds; Geeta Sharma; Chase Smith; Zhongguo Wang; Peter S. Dragovich; Janet Gunzner-Toste; Bianca M. Liederer; Justin Ly; Thomas O’Brien; Angela Oh; Leslie Wang; Weiru Wang; Yang Xiao; Mark Zak; Guiling Zhao; Po-wai Yuen; Kenneth W. Bair
Crystal structures of several urea- and thiourea-derived compounds in complex with the nicotinamide phosphoribosyltransferase (Nampt) protein were utilized to design a potent amide-containing inhibitor bearing an aza-indole moiety (7, Nampt BC IC50 = 9.0 nM, A2780 cell proliferation IC50 = 10 nM). The Nampt-7 cocrystal structure was subsequently obtained and enabled the design of additional amide-containing inhibitors which incorporated various other fused 6,5-heterocyclic moieties and biaryl sulfone or sulfonamide motifs. Additional modifications of these molecules afforded many potent biaryl sulfone-containing Nampt inhibitors which also exhibited favorable in vitro ADME properties (microsomal and hepatocyte stability, MDCK permeability, plasma protein binding). An optimized compound (58) was a potent inhibitor of multiple cancer cell lines (IC50 <10 nM vs U251, HT1080, PC3, MiaPaCa2, and HCT116 lines), displayed acceptable mouse PK properties (F = 41%, CL = 52.4 mL/min/kg), and exhibited robust efficacy in a U251 mouse xenograft model.
Journal of Medicinal Chemistry | 2013
Xiaozhang Zheng; Paul H. Bauer; Timm Baumeister; Alexandre J. Buckmelter; Maureen Caligiuri; Karl H. Clodfelter; Bingsong Han; Yen-Ching Ho; Nikolai Kley; Jian Lin; Dominic J. Reynolds; Geeta Sharma; Chase Smith; Zhongguo Wang; Peter S. Dragovich; Angela Oh; Weiru Wang; Mark Zak; Janet Gunzner-Toste; Guiling Zhao; Po-wai Yuen; Kenneth W. Bair
Nicotinamide phosphoribosyltransferase (Nampt) is a promising anticancer target. Virtual screening identified a thiourea analogue, compound 5, as a novel highly potent Nampt inhibitor. Guided by the cocrystal structure of 5, SAR exploration revealed that the corresponding urea compound 7 exhibited similar potency with an improved solubility profile. These studies also indicated that a 3-pyridyl group was the preferred substituent at one inhibitor terminus and also identified a urea moiety as the optimal linker to the remainder of the inhibitor structure. Further SAR optimization of the other inhibitor terminus ultimately yielded compound 50 as a urea-containing Nampt inhibitor which exhibited excellent biochemical and cellular potency (enzyme IC50 = 0.007 μM; A2780 IC50 = 0.032 μM). Compound 50 also showed excellent in vivo antitumor efficacy when dosed orally in an A2780 ovarian tumor xenograft model (TGI of 97% was observed on day 17).
Bioorganic & Medicinal Chemistry Letters | 2013
Xiaozhang Zheng; Kenneth W. Bair; Paul H. Bauer; Timm Baumeister; Krista K. Bowman; Alexandre J. Buckmelter; Maureen Caligiuri; Karl H. Clodfelter; Yezhen Feng; Bingsong Han; Yen-Ching Ho; Nikolai Kley; Hong Li; Xiaorong Liang; Bianca M. Liederer; Jian Lin; Justin Ly; Thomas O’Brien; Jason Oeh; Angela Oh; Dominic J. Reynolds; Deepak Sampath; Geeta Sharma; Nicholas J. Skelton; Chase Smith; Jarrod Tremayne; Leslie Wang; Weiru Wang; Zhongguo Wang; Hongxing Wu
Potent, 1H-pyrazolo[3,4-b]pyridine-containing inhibitors of the human nicotinamide phosphoribosyltransferase (NAMPT) enzyme were identified using structure-based design techniques. Many of these compounds exhibited nanomolar antiproliferation activities against human tumor lines in in vitro cell culture experiments, and a representative example (compound 26) demonstrated encouraging in vivo efficacy in a mouse xenograft tumor model derived from the A2780 cell line. This molecule also exhibited reduced rat retinal exposures relative to a previously studied imidazo-pyridine-containing NAMPT inhibitor. Somewhat surprisingly, compound 26 was only weakly active in vitro against mouse and monkey tumor cell lines even though it was a potent inhibitor of NAMPT enzymes derived from these species. The compound also exhibited only minimal effects on in vivo NAD levels in mice, and these changes were considerably less profound than those produced by an imidazo-pyridine-containing NAMPT inhibitor. The crystal structures of compound 26 and the corresponding PRPP-derived ribose adduct in complex with NAMPT were also obtained.
Journal of Medicinal Chemistry | 2013
Anthony M. Giannetti; Xiaozhang Zheng; Nicholas J. Skelton; Weiru Wang; Brandon J. Bravo; Kenneth W. Bair; Timm Baumeister; Eric Cheng; Lisa Crocker; Yezhen Feng; Janet Gunzner-Toste; Yen-Ching Ho; Rongbao Hua; Bianca M. Liederer; Yongbo Liu; Xiaolei Ma; Thomas O’Brien; Jason Oeh; Deepak Sampath; Youming Shen; Chengcheng Wang; Leslie Wang; Hongxing Wu; Yang Xiao; Po-wai Yuen; Mark Zak; Guiling Zhao; Qiang Zhao; Peter S. Dragovich
Potent, trans-2-(pyridin-3-yl)cyclopropanecarboxamide-containing inhibitors of the human nicotinamide phosphoribosyltransferase (NAMPT) enzyme were identified using fragment-based screening and structure-based design techniques. Multiple crystal structures were obtained of initial fragment leads, and this structural information was utilized to improve the biochemical and cell-based potency of the associated molecules. Many of the optimized compounds exhibited nanomolar antiproliferative activities against human tumor lines in in vitro cell culture experiments. In a key example, a fragment lead (13, KD = 51 μM) was elaborated into a potent NAMPT inhibitor (39, NAMPT IC50 = 0.0051 μM, A2780 cell culture IC50 = 0.000 49 μM) which demonstrated encouraging in vivo efficacy in an HT-1080 mouse xenograft tumor model.
Bioorganic & Medicinal Chemistry Letters | 2013
Janet Gunzner-Toste; Guiling Zhao; Paul H. Bauer; Timm Baumeister; Alexandre J. Buckmelter; Maureen Caligiuri; Karl H. Clodfelter; B Fu; Bingsong Han; Yen-Ching Ho; Nikolai Kley; Xiaorong Liang; Bianca M. Liederer; Jian Lin; S Mukadam; Thomas O'Brien; Angela Oh; Dominic J. Reynolds; Geeta Sharma; Nicholas J. Skelton; Chase Smith; J Sodhi; Weiru Wang; Zhongguo Wang; Yang Xiao; Po-wai Yuen; Mark Zak; Lei Zhang; Xiaozhang Zheng; Kenneth W. Bair
Potent, reversible inhibition of the cytochrome P450 CYP2C9 isoform was observed in a series of urea-containing nicotinamide phosphoribosyltransferase (NAMPT) inhibitors. This unwanted property was successfully removed from the described inhibitors through a combination of structure-based design and medicinal chemistry activities. An optimized compound which did not inhibit CYP2C9 exhibited potent anti-NAMPT activity (17; BC NAMPT IC50=3 nM; A2780 antiproliferative IC50=70 nM), good mouse PK properties, and was efficacious in an A2780 mouse xenograft model. The crystal structure of this compound in complex with the NAMPT protein is also described.
Bioorganic & Medicinal Chemistry Letters | 2013
Peter S. Dragovich; Kenneth W. Bair; Timm Baumeister; Yen-Ching Ho; Bianca M. Liederer; Xiongcai Liu; Y Liu; Thomas O'Brien; Jason Oeh; Deepak Sampath; Nicholas J. Skelton; Lan Wang; Weiru Wang; Hongxing Wu; Yang Xiao; Po-wai Yuen; Mark Zak; Lei Zhang; Xiaozhang Zheng
Potent nicotinamide phosphoribosyltransferase (NAMPT) inhibitors containing 2,3-dihydro-1H-pyrrolo[3,4-c]pyridine-derived ureas were identified using structure-based design techniques. The new compounds displayed improved aqueous solubilities, determined using a high-throughput solubility assessment, relative to previously disclosed urea and amide-containing NAMPT inhibitors. An optimized 2,3-dihydro-1H-pyrrolo[3,4-c]pyridine-derived compound exhibited potent anti-NAMPT activity (18; BC NAMPT IC50 = 11 nM; PC-3 antiproliferative IC50 = 36 nM), satisfactory mouse PK properties, and was efficacious in a PC-3 mouse xenograft model. The crystal structure of another optimized compound (29; NAMPT IC50 = 10nM; A2780 antiproliferative IC50 = 7 nM) in complex with the NAMPT protein was also determined.
Bioorganic & Medicinal Chemistry Letters | 2015
Mark Zak; Bianca M. Liederer; Deepak Sampath; Po-wai Yuen; Kenneth W. Bair; Timm Baumeister; Alexandre J. Buckmelter; Karl H. Clodfelter; Eric Cheng; Lisa Crocker; Bang Fu; Bingsong Han; Guangkun Li; Yen-Ching Ho; Jian Lin; Xiongcai Liu; Justin Ly; Thomas O’Brien; Dominic J. Reynolds; Nicholas J. Skelton; Chase Smith; Suzanne Tay; Weiru Wang; Zhongguo Wang; Yang Xiao; Lei Zhang; Guiling Zhao; Xiaozhang Zheng; Peter S. Dragovich
Herein we report the optimization efforts to ameliorate the potent CYP3A4 time-dependent inhibition (TDI) and low aqueous solubility exhibited by a previously identified lead compound from our NAMPT inhibitor program (1, GNE-617). Metabolite identification studies pinpointed the imidazopyridine moiety present in 1 as the likely source of the TDI signal, and replacement with other bicyclic systems was found to reduce or eliminate the TDI finding. A strategy of reducing the number of aromatic rings and/or lowering cLogD7.4 was then employed to significantly improve aqueous solubility. These efforts culminated in the discovery of 42, a compound with no evidence of TDI, improved aqueous solubility, and robust efficacy in tumor xenograft studies.
Bioorganic & Medicinal Chemistry Letters | 2014
Peter S. Dragovich; Guiling Zhao; Timm Baumeister; Brandon J. Bravo; Anthony M. Giannetti; Yen-Ching Ho; Rongbao Hua; Guangkun Li; Xiaorong Liang; Xiaolei Ma; Thomas O’Brien; Angela Oh; Nicholas J. Skelton; Chengcheng Wang; Weiru Wang; Yunli Wang; Yang Xiao; Po-wai Yuen; Mark Zak; Qiang Zhao; Xiaozhang Zheng
The fragment-based identification of two novel and potent biochemical inhibitors of the nicotinamide phosphoribosyltransferase (NAMPT) enzyme is described. These compounds (51 and 63) incorporate an amide moiety derived from 3-aminopyridine, and are thus structurally distinct from other known anti-NAMPT agents. Each exhibits potent inhibition of NAMPT biochemical activity (IC50=19 and 15 nM, respectively) as well as robust antiproliferative properties in A2780 cell culture experiments (IC50=121 and 99 nM, respectively). However, additional biological studies indicate that only inhibitor 51 exerts its A2780 cell culture effects via a NAMPT-mediated mechanism. The crystal structures of both 51 and 63 in complex with NAMPT are also independently described.
Bioorganic & Medicinal Chemistry Letters | 2013
Xiaozhang Zheng; Timm Baumeister; Alexandre J. Buckmelter; Maureen Caligiuri; Karl H. Clodfelter; Bingsong Han; Yen-Ching Ho; Nikolai Kley; Jian Lin; Dominic J. Reynolds; Geeta Sharma; Chase Smith; Zhongguo Wang; Peter S. Dragovich; Angela Oh; Weiru Wang; Mark Zak; Yunli Wang; Po-wai Yuen; Kenneth W. Bair
A co-crystal structure of amide-containing compound (4) in complex with the nicotinamide phosphoribosyltransferase (Nampt) protein and molecular modeling were utilized to design and discover a potent novel cyanoguanidine-containing inhibitor bearing a sulfone moiety (5, Nampt Biochemical IC50=2.5nM, A2780 cell proliferation IC50=9.7nM). Further SAR exploration identified several additional cyanoguanidine-containing compounds with high potency and good microsomal stability. Among these, compound 15 was selected for in vivo profiling and demonstrated good oral exposure in mice. It also exhibited excellent in vivo antitumor efficacy when dosed orally in an A2780 ovarian tumor xenograft model. The co-crystal structure of this compound in complex with the NAMPT protein was also determined.
Archive | 2011
Kenneth W. Bair; Timm Baumeister; Alexandre J. Buckmelter; Karl H. Clodfelter; Peter S. Dragovich; Francis Gosselin; Bingsong Han; Jian Lin; Dominic J. Reynolds; Bruce Roth; Chase Smith; Zhongguo Wang; Po-wai Yuen; Xiaozhang Zheng
