Your search keyword '"Kevin W Kuntz"' showing total 22 results

1. Small molecule inhibitors and CRISPR/Cas9 mutagenesis demonstrate that SMYD2 and SMYD3 activity are dispensable for autonomous cancer cell proliferation.

Author

Michael J Thomenius, Jennifer Totman, Darren Harvey, Lorna H Mitchell, Thomas V Riera, Kat Cosmopoulos, Alexandra R Grassian, Christine Klaus, Megan Foley, Elizabeth A Admirand, Haris Jahic, Christina Majer, Tim Wigle, Suzanne L Jacques, Jodi Gureasko, Dorothy Brach, Trupti Lingaraj, Kip West, Sherri Smith, Nathalie Rioux, Nigel J Waters, Cuyue Tang, Alejandra Raimondi, Michael Munchhof, James E Mills, Scott Ribich, Margaret Porter Scott, Kevin W Kuntz, William P Janzen, Mikel Moyer, Jesse J Smith, Richard Chesworth, Robert A Copeland, and P Ann Boriack-Sjodin

Subjects

Medicine, Science

Abstract

A key challenge in the development of precision medicine is defining the phenotypic consequences of pharmacological modulation of specific target macromolecules. To address this issue, a variety of genetic, molecular and chemical tools can be used. All of these approaches can produce misleading results if the specificity of the tools is not well understood and the proper controls are not performed. In this paper we illustrate these general themes by providing detailed studies of small molecule inhibitors of the enzymatic activity of two members of the SMYD branch of the protein lysine methyltransferases, SMYD2 and SMYD3. We show that tool compounds as well as CRISPR/Cas9 fail to reproduce many of the cell proliferation findings associated with SMYD2 and SMYD3 inhibition previously obtained with RNAi based approaches and with early stage chemical probes.

Published

2018

2. Identification of a peptide inhibitor for the histone methyltransferase WHSC1.

Author

Michael J Morrison, P Ann Boriack-Sjodin, Kerren K Swinger, Tim J Wigle, Dipti Sadalge, Kevin W Kuntz, Margaret Porter Scott, William P Janzen, Richard Chesworth, Kenneth W Duncan, Darren M Harvey, John W Lampe, Lorna H Mitchell, and Robert A Copeland

Subjects

Medicine, Science

Abstract

WHSC1 is a histone methyltransferase that is responsible for mono- and dimethylation of lysine 36 on histone H3 and has been implicated as a driver in a variety of hematological and solid tumors. Currently, there is a complete lack of validated chemical matter for this important drug discovery target. Herein we report on the first fully validated WHSC1 inhibitor, PTD2, a norleucine-containing peptide derived from the histone H4 sequence. This peptide exhibits micromolar affinity towards WHSC1 in biochemical and biophysical assays. Furthermore, a crystal structure was solved with the peptide in complex with SAM and the SET domain of WHSC1L1. This inhibitor is an important first step in creating potent, selective WHSC1 tool compounds for the purposes of understanding the complex biology in relation to human disease.

Published

2018

3. Correction: Preclinical Evidence of Anti-Tumor Activity Induced by EZH2 Inhibition in Human Models of Synovial Sarcoma.

Author

Satoshi Kawano, Alexandra R Grassian, Masumi Tsuda, Sarah K Knutson, Natalie M Warholic, Galina Kuznetsov, Shanqin Xu, Yonghong Xiao, Roy M Pollock, Jesse J Smith, Kevin W Kuntz, Scott Ribich, Yukinori Minoshima, Junji Matsui, Robert A Copeland, Shinya Tanaka, and Heike Keilhack

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0158888.].

Published

2017

4. Synergistic Anti-Tumor Activity of EZH2 Inhibitors and Glucocorticoid Receptor Agonists in Models of Germinal Center Non-Hodgkin Lymphomas.

Author

Sarah K Knutson, Natalie M Warholic, L Danielle Johnston, Christine R Klaus, Tim J Wigle, Dorothy Iwanowicz, Bruce A Littlefield, Margaret Porter-Scott, Jesse J Smith, Mikel P Moyer, Robert A Copeland, Roy M Pollock, Kevin W Kuntz, Alejandra Raimondi, and Heike Keilhack

Subjects

Medicine, Science

Abstract

Patients with non-Hodgkin lymphoma (NHL) are treated today with a cocktail of drugs referred to as CHOP (Cyclophosphamide, Hydroxyldaunorubicin, Oncovin, and Prednisone). Subsets of patients with NHL of germinal center origin bear oncogenic mutations in the EZH2 histone methyltransferase. Clinical testing of the EZH2 inhibitor EPZ-6438 has recently begun in patients. We report here that combining EPZ-6438 with CHOP in preclinical cell culture and mouse models results in dramatic synergy for cell killing in EZH2 mutant germinal center NHL cells. Surprisingly, we observe that much of this synergy is due to Prednisolone - a glucocorticoid receptor agonist (GRag) component of CHOP. Dramatic synergy was observed when EPZ-6438 is combined with Prednisolone alone, and a similar effect was observed with Dexamethasone, another GRag. Remarkably, the anti-proliferative effect of the EPZ-6438+GRag combination extends beyond EZH2 mutant-bearing cells to more generally impact germinal center NHL. These preclinical data reveal an unanticipated biological intersection between GR-mediated gene regulation and EZH2-mediated chromatin remodeling. The data also suggest the possibility of a significant and practical benefit of combining EZH2 inhibitors and GRag that warrants further investigation in a clinical setting.

Published

2014

5. Supplementary Table 2 from Selective Inhibition of EZH2 by EPZ-6438 Leads to Potent Antitumor Activity in EZH2-Mutant Non-Hodgkin Lymphoma

Author

Heike Keilhack, Akira Yokoi, Kevin W. Kuntz, Roy M. Pollock, Toshimitsu Uenaka, Victoria M. Richon, Robert A. Copeland, Mikel P. Moyer, Richard Chesworth, Margaret Porter-Scott, Jesse J. Smith, Nigel J. Waters, Alejandra Raimondi, Christina J. Allain, Christine R. Klaus, Tim J. Wigle, Namita Kumar, Galina Kuznetsov, Mai Uesugi, Tadashi Kadowaki, Yonghong Xiao, Kuan-Chun Huang, Natalie M. Warholic, Yukinori Minoshima, Satoshi Kawano, and Sarah K. Knutson

Abstract

XLSX file - 132K, Table S2: Effects of EPZ-6438 on Gene Expression in EZH2 Mutant Lymphoma Cells.

Published

2023

6. Supplementary Figures 1 - 6 from Selective Inhibition of EZH2 by EPZ-6438 Leads to Potent Antitumor Activity in EZH2-Mutant Non-Hodgkin Lymphoma

Author

Heike Keilhack, Akira Yokoi, Kevin W. Kuntz, Roy M. Pollock, Toshimitsu Uenaka, Victoria M. Richon, Robert A. Copeland, Mikel P. Moyer, Richard Chesworth, Margaret Porter-Scott, Jesse J. Smith, Nigel J. Waters, Alejandra Raimondi, Christina J. Allain, Christine R. Klaus, Tim J. Wigle, Namita Kumar, Galina Kuznetsov, Mai Uesugi, Tadashi Kadowaki, Yonghong Xiao, Kuan-Chun Huang, Natalie M. Warholic, Yukinori Minoshima, Satoshi Kawano, and Sarah K. Knutson

Abstract

PDF file - 811K, Fig. S1. Effects of EPZ-6438 on Gene Promoter H3K27 Methylation, Recruitment of PRC2 Components to Gene Promoters, and Cell Cycle, in WSU-DLCL2 Cells. Fig. S2: Effects of EPZ-6438 on Gene Expression in EZH2 Mutant Lymphoma Cell Lines. Fig. S3: Pharmacokinetic Profiles of EPZ-6438 in Rats and Mice. Fig. S4: EPZ-6438 Compound Levels in Plasma and WSU-DLCL2 Xenograft Tumor Homogenates from Mice Dosed for 7 or 28 Days. Fig. S5: In vivo Effects of EPZ-6438 in Lymphoma Xenograft Models. Fig. S6: Body Weights of Mice during Xenograft Efficacy Studies.

Published

2023

7. Supplementary Table 1 from Selective Inhibition of EZH2 by EPZ-6438 Leads to Potent Antitumor Activity in EZH2-Mutant Non-Hodgkin Lymphoma

Author

Heike Keilhack, Akira Yokoi, Kevin W. Kuntz, Roy M. Pollock, Toshimitsu Uenaka, Victoria M. Richon, Robert A. Copeland, Mikel P. Moyer, Richard Chesworth, Margaret Porter-Scott, Jesse J. Smith, Nigel J. Waters, Alejandra Raimondi, Christina J. Allain, Christine R. Klaus, Tim J. Wigle, Namita Kumar, Galina Kuznetsov, Mai Uesugi, Tadashi Kadowaki, Yonghong Xiao, Kuan-Chun Huang, Natalie M. Warholic, Yukinori Minoshima, Satoshi Kawano, and Sarah K. Knutson

Abstract

PDF file - 25K, Table S1: LCC Values for EPZ-6438 for WSU-DLCL2 Human Lymphoma Cells Dosed Either Continuously or After Compound Washout.

Published

2023

8. Data from Selective Inhibition of EZH2 by EPZ-6438 Leads to Potent Antitumor Activity in EZH2-Mutant Non-Hodgkin Lymphoma

Author

Heike Keilhack, Akira Yokoi, Kevin W. Kuntz, Roy M. Pollock, Toshimitsu Uenaka, Victoria M. Richon, Robert A. Copeland, Mikel P. Moyer, Richard Chesworth, Margaret Porter-Scott, Jesse J. Smith, Nigel J. Waters, Alejandra Raimondi, Christina J. Allain, Christine R. Klaus, Tim J. Wigle, Namita Kumar, Galina Kuznetsov, Mai Uesugi, Tadashi Kadowaki, Yonghong Xiao, Kuan-Chun Huang, Natalie M. Warholic, Yukinori Minoshima, Satoshi Kawano, and Sarah K. Knutson

Abstract

Mutations within the catalytic domain of the histone methyltransferase EZH2 have been identified in subsets of patients with non-Hodgkin lymphoma (NHL). These genetic alterations are hypothesized to confer an oncogenic dependency on EZH2 enzymatic activity in these cancers. We have previously reported the discovery of EPZ005678 and EPZ-6438, potent and selective S-adenosyl-methionine-competitive small molecule inhibitors of EZH2. Although both compounds are similar with respect to their mechanism of action and selectivity, EPZ-6438 possesses superior potency and drug-like properties, including good oral bioavailability in animals. Here, we characterize the activity of EPZ-6438 in preclinical models of NHL. EPZ-6438 selectively inhibits intracellular lysine 27 of histone H3 (H3K27) methylation in a concentration- and time-dependent manner in both EZH2 wild-type and mutant lymphoma cells. Inhibition of H3K27 trimethylation (H3K27Me3) leads to selective cell killing of human lymphoma cell lines bearing EZH2 catalytic domain point mutations. Treatment of EZH2-mutant NHL xenograft-bearing mice with EPZ-6438 causes dose-dependent tumor growth inhibition, including complete and sustained tumor regressions with correlative diminution of H3K27Me3 levels in tumors and selected normal tissues. Mice dosed orally with EPZ-6438 for 28 days remained tumor free for up to 63 days after stopping compound treatment in two EZH2-mutant xenograft models. These data confirm the dependency of EZH2-mutant NHL on EZH2 activity and portend the utility of EPZ-6438 as a potential treatment for these genetically defined cancers. Mol Cancer Ther; 13(4); 842–54. ©2014 AACR.

Published

2023

9. Abstract 2154: PARP7 inhibitor RBN-2397 increases tumoral IFN signaling leading to various tumor cell intrinsic effects and tumor regressions in mouse models

Author

Jennifer R. Molina, Joseph M. Gozgit, Melissa M. Vasbinder, Ryan P. Abo, Kaiko kunii, Kristy G. Kuplast-Barr, Bin Gui, Sunaina P. Nayak, Elena Minissale, Kerren K. Swinger, Tim J. Wigle, Alvin Z. Lu, Danielle J. Blackwell, Christina R. Majer, Yue Ren, Ellen Bamberg, Mario Niepel, Jan-Rung Mo, William D. Church, Ahmed S. Mady, Jeff Song, Zacharenia A. Varsamis, Luke Utley, Patricia E. Rao, Timoty J. Mitchison, Kevin W. Kuntz, Victoria M. Richon, Kristen McEachern, and Heike Keilhack

Subjects

Cancer Research, Oncology

Abstract

Targeting cytosolic nucleic acid sensing pathways to activate the Type I interferon (IFN) response is an emerging therapeutic strategy being explored in oncology. The PARP family consists of seventeen enzymes that regulate fundamental biological processes including response to cellular stress. PARP7 (TIPARP) is a stress-induced mono-ART that catalyzes the transfer of a single unit of ADP-ribose onto substrates (MARylation) to regulate their function and plays a role in suppressing the Type I IFN response in tumor cells (Gozgit 2021 Cancer Cell). RBN-2397 is the first potent and selective small molecule inhibitor of PARP7 catalytic function. To investigate the cell autonomous effects of PARP7 inhibition, we performed a cell line screen to identify PARP7 dependent cancer cell lines. We found that treatment of a subset of lines across several cancers led to a robust decrease in cell viability. Additionally, dosing of tumor bearing mice led to complete regressions in NCI-H1373 lung cancer xenografts. To investigate the mechanism of action (MOA) leading to decreased cell viability, we treated NCI-H1373 cells with RBN-2397 and found accumulation of cells in the G0/G1 phase of the cell cycle indicative of a cell cycle arrest. This arrest in NCI-H1373 cells was associated with the induction of senescence and increased mRNA expression of senescence associated secretory phenotype (SASP) genes. To evaluate the in vivo MOA, we performed an NCI-H1373 xenograft study and collected tumors after 7 days of RBN-2397 treatment. PARP7 inhibition led to decreased expression of Ki67, and increased expression of P21 and cleaved caspase-3, suggesting decreased proliferation and increased apoptosis. Increased expression of SASP genes was also observed in RBN-2397 treated tumors. Finally, we investigated transcriptional changes after RBN-2397 treatment by RNA sequencing. In addition to the effects observed in Type I IFN signaling, we also observed differential expression of genes associated with other pathways including autophagy and energy metabolism. Further evaluation of key autophagy proteins revealed that RBN-2397 affects autophagy flux and leads to a decrease in the oxygen consumption rate of cells and reduced ATP production from the mitochondria, suggesting that a change in energy metabolism may be related to the tumor intrinsic effect of RBN-2397. In summary, we show treatment of cancer cells with RBN-2397 not only leads to activation of tumor cell IFN signaling, but also causes G1 arrest and senescence, and changes in cancer cell autophagy and energy metabolism. In vivo, RBN-2397 treatment leads to complete tumor regressions in xenografts accompanied by decreased proliferation and increased apoptosis of tumor cells. RBN-2397 is currently being evaluated in the clinic as single agent in selected cancer types (NCT04053673) and in combination with anti-PD-1 therapies. Citation Format: Jennifer R. Molina, Joseph M. Gozgit, Melissa M. Vasbinder, Ryan P. Abo, Kaiko kunii, Kristy G. Kuplast-Barr, Bin Gui, Sunaina P. Nayak, Elena Minissale, Kerren K. Swinger, Tim J. Wigle, Alvin Z. Lu, Danielle J. Blackwell, Christina R. Majer, Yue Ren, Ellen Bamberg, Mario Niepel, Jan-Rung Mo, William D. Church, Ahmed S. Mady, Jeff Song, Zacharenia A. Varsamis, Luke Utley, Patricia E. Rao, Timoty J. Mitchison, Kevin W. Kuntz, Victoria M. Richon, Kristen McEachern, Heike Keilhack. PARP7 inhibitor RBN-2397 increases tumoral IFN signaling leading to various tumor cell intrinsic effects and tumor regressions in mouse models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2154.

Published

2022

10. Preclinical Evidence of Anti-Tumor Activity Induced by EZH2 Inhibition in Human Models of Synovial Sarcoma

Author

Satoshi Kawano, Alexandra R Grassian, Masumi Tsuda, Sarah K Knutson, Natalie M Warholic, Galina Kuznetsov, Shanqin Xu, Yonghong Xiao, Roy M Pollock, Jesse J Smith, Kevin W Kuntz, Scott Ribich, Yukinori Minoshima, Junji Matsui, Robert A Copeland, Shinya Tanaka, and Heike Keilhack

Subjects

Mice, Inbred BALB C, Multidisciplinary, Oncogene Proteins, Fusion, lcsh:R, Polycomb Repressive Complex 2, lcsh:Medicine, Correction, Mice, Nude, Antineoplastic Agents, SMARCB1 Protein, Xenograft Model Antitumor Assays, Mice, Sarcoma, Synovial, Cell Line, Tumor, Animals, Humans, lcsh:Q, Enhancer of Zeste Homolog 2 Protein, lcsh:Science

Abstract

The catalytic activities of covalent and ATP-dependent chromatin remodeling are central to regulating the conformational state of chromatin and the resultant transcriptional output. The enzymes that catalyze these activities are often contained within multiprotein complexes in nature. Two such multiprotein complexes, the polycomb repressive complex 2 (PRC2) methyltransferase and the SWItch/Sucrose Non-Fermentable (SWI/SNF) chromatin remodeler have been reported to act in opposition to each other during development and homeostasis. An imbalance in their activities induced by mutations/deletions in complex members (e.g. SMARCB1) has been suggested to be a pathogenic mechanism in certain human cancers. Here we show that preclinical models of synovial sarcoma-a cancer characterized by functional SMARCB1 loss via its displacement from the SWI/SNF complex through the pathognomonic SS18-SSX fusion protein-display sensitivity to pharmacologic inhibition of EZH2, the catalytic subunit of PRC2. Treatment with tazemetostat, a clinical-stage, selective and orally bioavailable small-molecule inhibitor of EZH2 enzymatic activity reverses a subset of synovial sarcoma gene expression and results in concentration-dependent cell growth inhibition and cell death specifically in SS18-SSX fusion-positive cells in vitro. Treatment of mice bearing either a cell line or two patient-derived xenograft models of synovial sarcoma leads to dose-dependent tumor growth inhibition with correlative inhibition of trimethylation levels of the EZH2-specific substrate, lysine 27 on histone H3. These data demonstrate a dependency of SS18-SSX-positive, SMARCB1-deficient synovial sarcomas on EZH2 enzymatic activity and suggests the potential utility of EZH2-targeted drugs in these genetically defined cancers.

Published

2017

11. Mechanism of Enantioselective Ti-Catalyzed Strecker Reaction: Peptide-Based Metal Complexes as Bifunctional Catalysts

Author

Kevin W. Kuntz, Amir H. Hoveyda, and Marc L. Snapper, and Nathan S. Josephsohn

Subjects

Titanium, Cyanides, Magnetic Resonance Spectroscopy, Schiff base, Stereochemistry, Ligand, Strecker amino acid synthesis, Chiral ligand, Enantioselective synthesis, Stereoisomerism, General Chemistry, Ligands, Biochemistry, Catalysis, Kinetics, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Catalytic cycle, Metalloproteins, Organometallic Compounds, Moiety, Imines, Amino Acids, Bifunctional

Abstract

Kinetic, structural, and stereochemical data regarding the mechanism of Ti-catalyzed addition of cyanide to imines in the presence of Schiff base peptide ligands are disclosed. The reaction is first order in the Ti-ligand complex; kinetic studies reveal DeltaS(dagger) = -45.6 +/- 4.1 cal K(-1) mol(-1), indicating a highly organized transition structure for the turnover-limiting step of the catalytic cycle. A mechanistic model consistent with the kinetic and stereochemical data is presented, where the Ti center is coordinated to the Schiff base unit of the ligand and the AA2 moiety of the peptidic segment of the chiral ligand associates and delivers HNC to the activated bound substrate. Thus, these studies illustrate that these non-C2-symmetric catalysts likely operate in a bifunctional fashion.

Published

2001

12. Combinatorial catalyst discovery

Author

Kevin W. Kuntz, Amir H. Hoveyda, and Marc L. Snapper

Subjects

Identification (information), Chemistry, Chemistry, Organic, Screening method, Nanotechnology, Context (language use), Biochemical engineering, Biochemistry, Catalysis, Analytical Chemistry

Abstract

There have been recent attempts to use the principles of combinatorial chemistry and high-throughput screening strategies for catalyst identification. With the technology available that allows the synthesis of large libraries, scientists of varied backgrounds have implemented screening efforts to identify active and selective catalysts. Within this context, several techniques have come to light in the past year: infrared thermography is used to identify optimal catalysts by monitoring the change in temperature for exothermic reactions; fluorescence and colored-dye assays, a familiar tool to biologists, is being applied to the identification of catalysts that exhibit the highest activity. Whereas none of these screening methods provide a general solution to the problem of screening large combinatorial libraries (there is likely to be no general solution), each advance represents an important intellectual and technological step forward.

Published

1999

13. Search for Chiral Catalysts Through Ligand Diversity: Substrate-Specific Catalysts and Ligand Screening on Solid Phase

Author

Bridget M. Cole, Amir H. Hoveyda, Ken D. Shimizu, Kevin W. Kuntz, Marc L. Snapper, and Clinton A. Krueger

Subjects

Chemistry, Ligand, Enantioselective synthesis, Substrate (chemistry), Homogeneous catalysis, General Medicine, General Chemistry, Heterogeneous catalysis, Combinatorial chemistry, Catalysis, Solid-phase synthesis, Phase (matter), Organic chemistry

Published

1997

14. Suche nach chiralen Katalysatoren durch Ligandenvielfalt: substratspezifische Katalysatoren und Screening von Liganden an fester Phase

Author

Amir H. Hoveyda, Clinton A. Krueger, Bridget M. Cole, Kevin W. Kuntz, Marc L. Snapper, and Ken D. Shimizu

Subjects

Chemistry, General Medicine

Published

1997

15. Total Synthesis of Anti-HIV Agent Chloropeptin I

Author

Kevin W. Kuntz, Hongbo Deng, Marc L. Snapper, Amir H. Hoveyda, Jae-Kyung Jung, and Tao Liu

Subjects

chemistry.chemical_classification, Anti-HIV Agents, Stereochemistry, Cyanide, Enantioselective synthesis, Total synthesis, Stereoisomerism, General Chemistry, Peptides, Cyclic, Biochemistry, Catalysis, Amino acid, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Moiety, Molecule, Stereoselectivity, Phenols, Chlorophenols

Abstract

A convergent diastereo- and enantioselective total synthesis of anti-HIV agent chloropeptin I is reported. Important features of the total synthesis include: (1) the use of Ti-catalyzed cyanide addition to imines to prepare a requisite amino acid moiety, (2) the discovery of the positive effect of MeOH in the Cu-mediated biaryl ether formation to afford one of the two macrocyclic peptide moieties, and (3) the discovery of the positive influence of collidine in the diastereoselective Pd-mediated cross-coupling to result in efficient formation of another macrocycle within this medicinally important molecule. This key step is performed in the presence of four unprotected phenols, two of which reside on dichlorophenylglycines.

Published

2003

16. Conformational adaptation drives potent, selective and durable inhibition of the human protein methyltransferase DOT1L

Author

Aravind, Basavapathruni, Lei, Jin, Scott R, Daigle, Christina R A, Majer, Carly A, Therkelsen, Tim J, Wigle, Kevin W, Kuntz, Richard, Chesworth, Roy M, Pollock, Margaret P, Scott, Mikel P, Moyer, Victoria M, Richon, Robert A, Copeland, and Edward J, Olhava

Subjects

Binding Sites, Nucleosides, Histone-Lysine N-Methyltransferase, Methyltransferases, Crystallography, X-Ray, Methylation, Protein Structure, Tertiary, Histones, Molecular Docking Simulation, Kinetics, Structure-Activity Relationship, Cell Line, Tumor, Drug Design, Humans, Enzyme Inhibitors, Protein Binding

Abstract

DOT1L is the human protein methyltransferase responsible for catalyzing the methylation of histone H3 on lysine 79 (H3K79). The ectopic activity of DOT1L, associated with the chromosomal translocation that is a universal hallmark of MLL-rearranged leukemia, is a required driver of leukemogenesis in this malignancy. Here, we present studies on the structure-activity relationship of aminonucleoside-based DOT1L inhibitors. Within this series, we find that improvements in target enzyme affinity and selectivity are driven entirely by diminution of the dissociation rate constant for the enzyme-inhibitor complex, leading to long residence times for the binary complex. The biochemical K(i) and residence times measured for these inhibitors correlate well with their effects on intracellular H3K79 methylation and MLL-rearranged leukemic cell killing. Crystallographic studies reveal a conformational adaptation mechanism associated with high-affinity inhibitor binding and prolonged residence time; these studies also suggest that conformational adaptation likewise plays a critical role in natural ligand interactions with the enzyme, hence, facilitating enzyme turnover. These results provide critical insights into the role of conformational adaptation in the enzymatic mechanism of catalysis and in pharmacologic intervention for DOT1L and other members of this enzyme class.

Published

2012

17. ChemInform Abstract: Search for Chiral Catalysts Through Ligand Diversity: Substrate- Specific Catalysts and Ligand Screening on Solid Phase

Author

Marc L. Snapper, Clinton A. Krueger, Kevin W. Kuntz, Ken D. Shimizu, Bridget M. Cole, and Amir H. Hoveyda

Subjects

Chemistry, Ligand, Phase (matter), Substrate (chemistry), General Medicine, Combinatorial chemistry, Catalysis

Published

2010

18. ChemInform Abstract: Ti-Catalyzed Enantioselective Addition of Cyanide to Imines. A Practical Synthesis of Optically Pure α-Amino Acids

Author

John D. Gleason, Wolfgang G. Wirschun, Carolyn D. Dzierba, Amir H. Hoveyda, Clinton A. Krueger, Kevin W. Kuntz, and Marc L. Snapper

Subjects

chemistry.chemical_classification, Addition reaction, chemistry.chemical_compound, Chemistry, Cyanide, Enantioselective synthesis, Organic chemistry, General Medicine, Amino acid, Catalysis

Published

2010

19. ChemInform Abstract: Ti-Catalyzed Regio- and Enantioselective Synthesis of Unsaturated α-Amino Nitriles, Amides and Acids. Catalyst Identification Through Screening of Parallel Libraries

Author

Hoveyda Amir H. Hoveyda Amir H., Kevin W. Kuntz, James R. Porter, Wolfgang G. Wirschun, and Marc L. Snapper

Subjects

Addition reaction, Chemistry, Enantioselective synthesis, Organic chemistry, Amino nitriles, General Medicine, Catalysis

Published

2010

20. Total Synthesis of anti-HIV Agent Chloropeptin I (I)

Author

Jae-Kyung Jung, Hongbo Deng, Tao Liu, Amir H. Hoveyda, Kevin W. Kuntz, and Marc L. Snapper

Subjects

chemistry.chemical_classification, chemistry, Chloropeptin I, Total synthesis, Anti-HIV Agent, General Medicine, Pharmacology, Amino acid

Published

2003

21. Ti-Catalyzed Regio- and Enantioselective Synthesis of Unsaturated α-Amino Nitriles, Amides, and Acids. Catalyst Identification through Screening of Parallel Libraries

Author

and Marc L. Snapper, Kevin W. Kuntz, James R. Porter, Amir H. Hoveyda, and Wolfgang G. Wirschun

Subjects

Colloid and Surface Chemistry, Chemistry, Enantioselective synthesis, Amino nitriles, General Chemistry, Biochemistry, Combinatorial chemistry, Catalysis

Published

2000

22. Ti-Catalyzed Enantioselective Addition of Cyanide to Imines. A Practical Synthesis of Optically Pure α-Amino Acids

Author

Carolyn D. Dzierba, Clinton A. Krueger, Amir H. Hoveyda, John D. Gleason, Kevin W. Kuntz, Wolfgang G. Wirschun, and Marc L. Snapper

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Cyanide, Enantioselective synthesis, Organic chemistry, General Chemistry, Biochemistry, Catalysis, Amino acid

Published

1999