Your search keyword '"Allali-Hassani A"' showing total 214 results

1. The Cryptosporidium parvum Kinome

Author

Artz Jennifer D, Wernimont Amy K, Allali-Hassani Abdellah, Zhao Yong, Amani Mehrnaz, Lin Yu-Hui, Senisterra Guillermo, Wasney Gregory A, Fedorov Oleg, King Oliver, Roos Annette, Lunin Vlad V, Qiu Wei, Finerty Patrick, Hutchinson Ashley, Chau Irene, von Delft Frank, MacKenzie Farrell, Lew Jocelyne, Kozieradzki Ivona, Vedadi Masoud, Schapira Matthieu, Zhang Chao, Shokat Kevan, Heightman Tom, and Hui Raymond

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Hundreds of millions of people are infected with cryptosporidiosis annually, with immunocompromised individuals suffering debilitating symptoms and children in socioeconomically challenged regions at risk of repeated infections. There is currently no effective drug available. In order to facilitate the pursuit of anti-cryptosporidiosis targets and compounds, our study spans the classification of the Cryptosporidium parvum kinome and the structural and biochemical characterization of representatives from the CDPK family and a MAP kinase. Results The C. parvum kinome comprises over 70 members, some of which may be promising drug targets. These C. parvum protein kinases include members in the AGC, Atypical, CaMK, CK1, CMGC, and TKL groups; however, almost 35% could only be classified as OPK (other protein kinases). In addition, about 25% of the kinases identified did not have any known orthologues outside of Cryptosporidium spp. Comparison of specific kinases with their Plasmodium falciparum and Toxoplasma gondii orthologues revealed some distinct characteristics within the C. parvum kinome, including potential targets and opportunities for drug design. Structural and biochemical analysis of 4 representatives of the CaMK group and a MAP kinase confirms features that may be exploited in inhibitor design. Indeed, screening CpCDPK1 against a library of kinase inhibitors yielded a set of the pyrazolopyrimidine derivatives (PP1-derivatives) with IC50 values of < 10 nM. The binding of a PP1-derivative is further described by an inhibitor-bound crystal structure of CpCDPK1. In addition, structural analysis of CpCDPK4 identified an unprecedented Zn-finger within the CDPK kinase domain that may have implications for its regulation. Conclusions Identification and comparison of the C. parvum protein kinases against other parasitic kinases shows how orthologue- and family-based research can be used to facilitate characterization of promising drug targets and the search for new drugs.

Published

2011

2. Enzymatic nucleosome acetylation selectively affects activity of histone methyltransferases in vitro

Author

Trush, Viacheslav V., Feller, Christian, Li, Alice Shi Ming, Allali-Hassani, Abdellah, Szewczyk, Magdalena M., Chau, Irene, Eram, Mohammad S., Jiang, Boya, Luu, Raymond, Zhang, Fangfei, Barsyte-Lovejoy, Dalia, Aebersold, Ruedi, Arrowsmith, Cheryl H., and Vedadi, Masoud

Published

2022

3. A chemical probe targeting the PWWP domain alters NSD2 nucleolar localization

Author

Dilworth, David, Hanley, Ronan P., Ferreira de Freitas, Renato, Allali-Hassani, Abdellah, Zhou, Mengqi, Mehta, Naimee, Marunde, Matthew R., Ackloo, Suzanne, Carvalho Machado, Raquel Arminda, Khalili Yazdi, Aliakbar, Owens, Dominic D. G., Vu, Victoria, Nie, David Y., Alqazzaz, Mona, Marcon, Edyta, Li, Fengling, Chau, Irene, Bolotokova, Albina, Qin, Su, Lei, Ming, Liu, Yanli, Szewczyk, Magdalena M., Dong, Aiping, Kazemzadeh, Sina, Abramyan, Tigran, Popova, Irina K., Hall, Nathan W., Meiners, Matthew J., Cheek, Marcus A., Gibson, Elisa, Kireev, Dmitri, Greenblatt, Jack F., Keogh, Michael-C., Min, Jinrong, Brown, Peter J., Vedadi, Masoud, Arrowsmith, Cheryl H., Barsyte-Lovejoy, Dalia, James, Lindsey I., and Schapira, Matthieu

Published

2022

4. Identification and characterization of the first fragment hits for SETDB1 Tudor domain

Author

Mader, Pavel, Mendoza-Sanchez, Rodrigo, Iqbal, Aman, Dong, Aiping, Dobrovetsky, Elena, Corless, Victoria B., Liew, Sean K., Houliston, Scott R., De Freitas, Renato Ferreira, Smil, David, Sena, Carlo C. Dela, Kennedy, Steven, Diaz, Diego B., Wu, Hong, Dombrovski, Ludmila, Allali-Hassani, Abdellah, Min, Jinrong, Schapira, Matthieu, Vedadi, Masoud, Brown, Peter J., Santhakumar, Vijayaratnam, Yudin, Andrei K., and Arrowsmith, Cheryl H.

Published

2019

5. Discovery of a chemical probe for PRDM9

Author

Abdellah Allali-Hassani, Magdalena M. Szewczyk, Danton Ivanochko, Shawna L. Organ, Jabez Bok, Jessica Sook Yuin Ho, Florence P. H. Gay, Fengling Li, Levi Blazer, Mohammad S. Eram, Levon Halabelian, David Dilworth, Genna M. Luciani, Evelyne Lima-Fernandes, Qin Wu, Peter Loppnau, Nathan Palmer, S. Zakiah A. Talib, Peter J. Brown, Matthieu Schapira, Philipp Kaldis, Ronan C. O’Hagan, Ernesto Guccione, Dalia Barsyte-Lovejoy, Cheryl H. Arrowsmith, John M. Sanders, Solomon D. Kattar, D. Jonathan Bennett, Benjamin Nicholson, and Masoud Vedadi

Subjects

Science

Abstract

PRDM9 is a PR domain containing histone methyl transferase which expression is normally restricted to the germline that has also been linked to a number of somatic cancers. Here the authors describe the identification of a small molecule that selectivity inhibits the methyltransferase activity of PRDM9 in biochemical and cellular assays

Published

2019

6. Discovery of Small-Molecule Antagonists of the H3K9me3 Binding to UHRF1 Tandem Tudor Domain

Author

Senisterra, Guillermo, Zhu, Hugh Y., Luo, Xiao, Zhang, Hailong, Xun, Guoliang, Lu, Chunliang, Xiao, Wen, Hajian, Taraneh, Loppnau, Peter, Chau, Irene, Li, Fengling, Allali-Hassani, Abdellah, Atadja, Peter, Oyang, Counde, Li, En, Brown, Peter J., Arrowsmith, Cheryl H., Zhao, Kehao, Yu, Zhengtian, and Vedadi, Masoud

Published

2018

7. Fragment-based discovery of a chemical probe for the PWWP1 domain of NSD3

Author

Böttcher, Jark, Dilworth, David, Reiser, Ulrich, Neumüller, Ralph A., Schleicher, Michael, Petronczki, Mark, Zeeb, Markus, Mischerikow, Nikolai, Allali-Hassani, Abdellah, Szewczyk, Magdalena M., Li, Fengling, Kennedy, Steven, Vedadi, Masoud, Barsyte-Lovejoy, Dalia, Brown, Peter J., Huber, Kilian V. M., Rogers, Catherine M., Wells, Carrow I., Fedorov, Oleg, Rumpel, Klaus, Zoephel, Andreas, Mayer, Moriz, Wunberg, Tobias, Böse, Dietrich, Zahn, Stephan, Arnhof, Heribert, Berger, Helmut, Reiser, Christoph, Hörmann, Alexandra, Krammer, Teresa, Corcokovic, Maja, Sharps, Bernadette, Winkler, Sandra, Häring, Daniela, Cockcroft, Xiao-Ling, Fuchs, Julian E., Müllauer, Barbara, Weiss-Puxbaum, Alexander, Gerstberger, Thomas, Boehmelt, Guido, Vakoc, Christopher R., Arrowsmith, Cheryl H., Pearson, Mark, and McConnell, Darryl B.

Published

2019

8. Development of LM-41 and AF-2112, two flufenamic acid-derived TEAD inhibitors obtained through the replacement of the trifluoromethyl group by aryl rings

Author

Fnaiche, Ahmed, Mélin, Léa, Suárez, Narjara González, Paquin, Alexis, Vu, Victoria, Li, Fengling, Allali-Hassani, Abdellah, Bolotokova, Albina, Allemand, Frédéric, Gelin, Muriel, Cotelle, Philippe, Woo, Simon, LaPlante, Steven R., Barsyte-Lovejoy, Dalia, Santhakumar, Vijayaratnam, Vedadi, Masoud, Guichou, Jean-François, Annabi, Borhane, and Gagnon, Alexandre

Published

2023

9. Discovery of a chemical probe for PRDM9

Author

Allali-Hassani, Abdellah, Szewczyk, Magdalena M., Ivanochko, Danton, Organ, Shawna L., Bok, Jabez, Ho, Jessica Sook Yuin, Gay, Florence P. H., Li, Fengling, Blazer, Levi, Eram, Mohammad S., Halabelian, Levon, Dilworth, David, Luciani, Genna M., Lima-Fernandes, Evelyne, Wu, Qin, Loppnau, Peter, Palmer, Nathan, Talib, S. Zakiah A., Brown, Peter J., Schapira, Matthieu, Kaldis, Philipp, O’Hagan, Ronan C., Guccione, Ernesto, Barsyte-Lovejoy, Dalia, Arrowsmith, Cheryl H., Sanders, John M., Kattar, Solomon D., Bennett, D. Jonathan, Nicholson, Benjamin, and Vedadi, Masoud

Published

2019

10. Development of HC-258, a Covalent Acrylamide TEAD Inhibitor That Reduces Gene Expression and Cell Migration.

Author

Fnaiche, Ahmed, Chan, Hwai-Chien, Paquin, Alexis, González Suárez, Narjara, Vu, Victoria, Li, Fengling, Allali-Hassani, Abdellah, Cao, Michelle Ada, Szewczyk, Magdalena M., Bolotokova, Albina, Allemand, Frédéric, Gelin, Muriel, Barsyte-Lovejoy, Dalia, Santhakumar, Vijayaratnam, Vedadi, Masoud, Guichou, Jean-François, Annabi, Borhane, and Gagnon, Alexandre

Published

2023

11. LLY-507, a Cell-active, Potent, and Selective Inhibitor of Protein-lysine Methyltransferase SMYD2

Author

Nguyen, Hannah, Allali-Hassani, Abdellah, Antonysamy, Stephen, Chang, Shawn, Chen, Lisa Hong, Curtis, Carmen, Emtage, Spencer, Fan, Li, Gheyi, Tarun, Li, Fengling, Liu, Shichong, Martin, Joseph R., Mendel, David, Olsen, Jonathan B., Pelletier, Laura, Shatseva, Tatiana, Wu, Song, Zhang, Feiyu Fred, Arrowsmith, Cheryl H., Brown, Peter J., Campbell, Robert M., Garcia, Benjamin A., Barsyte-Lovejoy, Dalia, Mader, Mary, and Vedadi, Masoud

Published

2015

12. A Basic Post-SET Extension of NSDs Is Essential for Nucleosome Binding In Vitro

Author

Allali-Hassani, Abdellah, Kuznetsova, Ekaterina, Hajian, Taraneh, Wu, Hong, Dombrovski, Ludmila, Li, Yanjun, Gräslund, Susanne, Arrowsmith, Cheryl H., Schapira, Matthieu, and Vedadi, Masoud

Published

2014

13. (R)-PFI-2 is a potent and selective inhibitor of SETD7 methyltransferase activity in cells

Author

Barsyte-Lovejoy, Dalia, Li, Fengling, Oudhoff, Menno J., Tatlock, John H., Dong, Aiping, Zeng, Hong, Wu, Hong, Freeman, Spencer A., Schapira, Matthieu, Senisterra, Guillermo A., Kuznetsova, Ekaterina, Marcellus, Richard, Allali-Hassani, Abdellah, Kennedy, Steven, Lambert, Jean-Philippe, Couzens, Amber L., Aman, Ahmed, Gingras, Anne-Claude, Al-Awar, Rima, Fish, Paul V., Gerstenberger, Brian S., Roberts, Lee, Benn, Caroline L., Grimley, Rachel L., Braam, Mitchell J. S., Rossi, Fabio M. V., Sudol, Marius, Brown, Peter J., Bunnage, Mark E., Owen, Dafydd R., Zaph, Colby, Vedadi, Masoud, and Arrowsmith, Cheryl H.

Published

2014

14. A Strategy for Modulation of Enzymes in the Ubiquitin System

Author

Ernst, Andreas, Avvakumov, George, Tong, Jiefei, Fan, Yihui, Zhao, Yanling, Alberts, Philipp, Persaud, Avinash, Walker, John R., Neculai, Ana-Mirela, Neculai, Dante, Vorobyov, Andrew, Garg, Pankaj, Beatty, Linda, Chan, Pak-Kei, Juang, Yu-Chi, Landry, Marie-Claude, Yeh, Christina, Zeqiraj, Elton, Karamboulas, Konstantina, Allali-Hassani, Abdellah, Vedadi, Masoud, Tyers, Mike, Moffat, Jason, Sicheri, Frank, Pelletier, Laurence, Durocher, Daniel, Raught, Brian, Rotin, Daniela, Yang, Jianhua, Moran, Michael F., Dhe-Paganon, Sirano, and Sidhu, Sachdev S.

Published

2013

15. An Allosteric Inhibitor of Protein Arginine Methyltransferase 3

Author

Siarheyeva, Alena, Senisterra, Guillermo, Allali-Hassani, Abdellah, Dong, Aiping, Dobrovetsky, Elena, Wasney, Gregory A., Chau, Irene, Marcellus, Richard, Hajian, Taraneh, Liu, Feng, Korboukh, Ilia, Smil, David, Bolshan, Yuri, Min, Jinrong, Wu, Hong, Zeng, Hong, Loppnau, Peter, Poda, Gennadiy, Griffin, Carly, Aman, Ahmed, Brown, Peter J., Jin, Jian, Al-awar, Rima, Arrowsmith, Cheryl H., Schapira, Matthieu, and Vedadi, Masoud

Published

2012

16. Fluorescence-Based Methods for Screening Writers and Readers of Histone Methyl Marks

Author

Allali-Hassani, Abdellah, Wasney, Gregory A., Siarheyeva, Alena, Hajian, Taraneh, Arrowsmith, Cheryl H., and Vedadi, Masoud

Published

2012

17. Recognition of Multivalent Histone States Associated with Heterochromatin by UHRF1 Protein

Author

Nady, Nataliya, Lemak, Alexander, Walker, John R., Avvakumov, George V., Kareta, Michael S., Achour, Mayada, Xue, Sheng, Duan, Shili, Allali-Hassani, Abdellah, Zuo, Xiaobing, Wang, Yun-Xing, Bronner, Christian, Chédin, Frédéric, Arrowsmith, Cheryl H., and Dhe-Paganon, Sirano

Published

2011

18. Human and Rat Class IV Alcohol Dehydrogenases : Correlations of Primary Structures with Enzymatic Properties

Author

Farrés, Jaume, Moreno, Alberto, Crosas, Bernat, Cederlund, Ella, Allali-Hassani, Abdellah, Peralba, Josep M., Hjelmqvist, Lars, Jörnvall, Hans, Parés, Xavier, Weiner, Henry, editor, Holmes, Roger S., editor, and Wermuth, Bendicht, editor

Published

1995

19. Chemical Screening Methods to Identify Ligands That Promote Protein Stability, Protein Crystallization, and Structure Determination

Author

Vedadi, Masoud, Niesen, Frank H., Allali-Hassani, Abdellah, Fedorov, Oleg Y., Finerty, Patrick J., Wasney, Gregory A., Yeung, Ron, Arrowsmith, Cheryl, Ball, Linda J., Berglund, Helena, Hui, Raymond, Marsden, Brian D., Nordlund, Pär, Sundstrom, Michael, Weigelt, Johan, and Edwards, Aled M.

Published

2006

20. Biophysical characterization of recombinant proteins: A key to higher structural genomics success

Author

Vedadi, Masoud, Arrowsmith, Cheryl H., Allali-Hassani, Abdellah, Senisterra, Guillermo, and Wasney, Gregory A.

Published

2010

21. Crystal Structures of Human Choline Kinase Isoforms in Complex with Hemicholinium-3: SINGLE AMINO ACID NEAR THE ACTIVE SITE INFLUENCES INHIBITOR SENSITIVITY

Author

Hong, Bum Soo, Allali-Hassani, Abdellah, Tempel, Wolfram, Finerty, Patrick J., Jr., MacKenzie, Farrell, Dimov, Svetoslav, Vedadi, Masoud, and Park, Hee-Won

Published

2010

22. Structure and Function of the PLAA/Ufd3-p97/Cdc48 Complex

Author

Qiu, Liyan, Pashkova, Natasha, Walker, John R., Winistorfer, Stanley, Allali-Hassani, Abdellah, Akutsu, Masato, Piper, Robert, and Dhe-Paganon, Sirano

Published

2010

23. Sgf29 binds histone H3K4me2/3 and is required for SAGA complex recruitment and histone H3 acetylation

Author

Bian, Chuanbing, Xu, Chao, Ruan, Jianbin, Lee, Kenneth K, Burke, Tara L, Tempel, Wolfram, Barsyte, Dalia, Li, Jing, Wu, Minhao, Zhou, Bo O, Fleharty, Brian E, Paulson, Ariel, Allali‐Hassani, Abdellah, Zhou, Jin‐Qiu, Mer, Georges, Grant, Patrick A, Workman, Jerry L, Zang, Jianye, and Min, Jinrong

Published

2011

24. Autoregulation by the Juxtamembrane Region of the Human Ephrin Receptor Tyrosine Kinase A3 (EphA3)

Author

Davis, Tara L., Walker, John R., Loppnau, Peter, Butler-Cole, Christine, Allali-Hassani, Abdellah, and Dhe-Paganon, Sirano

Published

2008

25. Human HDAC7 Harbors a Class IIa Histone Deacetylase-specific Zinc Binding Motif and Cryptic Deacetylase Activity

Author

Schuetz, Anja, Min, Jinrong, Allali-Hassani, Abdellah, Schapira, Matthieu, Shuen, Michael, Loppnau, Peter, Mazitschek, Ralph, Kwiatkowski, Nick P., Lewis, Timothy A., Maglathin, Rebecca L., McLean, Thomas H., Bochkarev, Alexey, Plotnikov, Alexander N., Vedadi, Masoud, and Arrowsmith, Cheryl H.

Published

2008

26. Structural basis for molecular recognition and presentation of histone H3 By WDR5

Author

Schuetz, Anja, Allali‐Hassani, Abdellah, Martín, Fernando, Loppnau, Peter, Vedadi, Masoud, Bochkarev, Alexey, Plotnikov, Alexander N, Arrowsmith, Cheryl H, and Min, Jinrong

Published

2006

27. Isolation of the rstA gene as a multicopy suppressor of YjeE, an essential ATPase of unknown function in Escherichia coli

Author

Campbell, Tracey L., Ederer, Claudia S., Allali-Hassani, Abdellah, and Brown, Eric D.

Subjects

Adenosine triphosphatase -- Genetic aspects, Adenosine triphosphatase -- Research, Chromosome deletion -- Research, Escherichia coli -- Genetic aspects, Escherichia coli -- Research, Biological sciences

Abstract

YjeE is an essential ATPase in Escherichia coil whose cellular function remains uncharacterized. Using a genomic library, we have identified rstA as a multicopy suppressor of a conditional yjeE deletion strain. High-copy rstA is the first recorded suppressor for a lesion in yjeE, and this newly charted genetic interaction has the potential to be informative about the function, with further study of the interacting partners.

Published

2007

28. Structural Basis of Inhibition of the Human NAD+-Dependent Deacetylase SIRT5 by Suramin

Author

Schuetz, Anja, Min, Jinrong, Antoshenko, Tatiana, Wang, Chia-Lin, Allali-Hassani, Abdellah, Dong, Aiping, Loppnau, Peter, Vedadi, Masoud, Bochkarev, Alexey, Sternglanz, Rolf, and Plotnikov, Alexander N.

Published

2007

29. Correction: Structural and Chemical Profiling of the Human Cytosolic Sulfotransferases.

Author

Abdellah Allali-Hassani, Wang Pan, Ludmila Dombrovski, Rafi Najmanovich, Wolfram Tempel, Aiping Dong, Peter Loppnau, Fernando Martin, Janet Thornton, Aled Edwards, Alexey Bochkarev, Alexander Plotnikov, Masoud Vedadi, and Cheryl Arrowsmith

Subjects

Biology (General), QH301-705.5

Published

2007

30. Structural and chemical profiling of the human cytosolic sulfotransferases.

Author

Abdellah Allali-Hassani, Patricia W Pan, Ludmila Dombrovski, Rafael Najmanovich, Wolfram Tempel, Aiping Dong, Peter Loppnau, Fernando Martin, Janet Thornton, Aled M Edwards, Alexey Bochkarev, Alexander N Plotnikov, Masoud Vedadi, and Cheryl H Arrowsmith

Subjects

Biology (General), QH301-705.5

Abstract

The human cytosolic sulfotransfases (hSULTs) comprise a family of 12 phase II enzymes involved in the metabolism of drugs and hormones, the bioactivation of carcinogens, and the detoxification of xenobiotics. Knowledge of the structural and mechanistic basis of substrate specificity and activity is crucial for understanding steroid and hormone metabolism, drug sensitivity, pharmacogenomics, and response to environmental toxins. We have determined the crystal structures of five hSULTs for which structural information was lacking, and screened nine of the 12 hSULTs for binding and activity toward a panel of potential substrates and inhibitors, revealing unique "chemical fingerprints" for each protein. The family-wide analysis of the screening and structural data provides a comprehensive, high-level view of the determinants of substrate binding, the mechanisms of inhibition by substrates and environmental toxins, and the functions of the orphan family members SULT1C3 and SULT4A1. Evidence is provided for structural "priming" of the enzyme active site by cofactor binding, which influences the spectrum of small molecules that can bind to each enzyme. The data help explain substrate promiscuity in this family and, at the same time, reveal new similarities between hSULT family members that were previously unrecognized by sequence or structure comparison alone.

Published

2007

31. Structural recognition of an optimized substrate for the ephrin family of receptor tyrosine kinases

Author

Davis, Tara L., Walker, John R., Allali-Hassani, Abdellah, Parker, Sirlester A., Turk, Benjamin E., and Dhe-Paganon, Sirano

Published

2009

32. Methylation-state-specific recognition of histones by the MBT repeat protein L3MBTL2

Author

Guo, Yahong, Nady, Nataliya, Qi, Chao, Allali-Hassani, Abdellah, Zhu, Haizhong, Pan, Patricia, Adams-Cioaba, Melanie A., Amaya, Maria F., Dong, Aiping, Vedadi, Masoud, Schapira, Matthieu, Read, Randy J., Arrowsmith, Cheryl H., and Min, Jinrong

Published

2009

33. Discovery of a chemical probe for PRDM9

Author

Ernesto Guccione, Philipp Kaldis, Dalia Barsyte-Lovejoy, Danton Ivanochko, Magdalena M. Szewczyk, David Dilworth, Matthieu Schapira, Peter Loppnau, S. Zakiah A. Talib, Fengling Li, Solomon Kattar, Levon Halabelian, Ronan C. O'Hagan, Jabez Bok, Levi L. Blazer, Evelyne Lima-Fernandes, Genna M. Luciani, Nathan Palmer, Mohammad S. Eram, Cheryl H. Arrowsmith, Benjamin Nicholson, John M. Sanders, Peter Brown, Abdellah Allali-Hassani, Masoud Vedadi, Shawna Organ, Jessica Sook Yuin Ho, D. Jonathan Bennett, and Qin Wu

Subjects

0301 basic medicine, Genome instability, S-Adenosylmethionine, Subfamily, Methyltransferase, Science, Protein domain, General Physics and Astronomy, Molecular Dynamics Simulation, Crystallography, X-Ray, medicine.disease_cause, Gene, Article, General Biochemistry, Genetics and Molecular Biology, PR Domain, Histones, Inhibitory Concentration 50, 03 medical and health sciences, 0302 clinical medicine, Protein Domains, Transferases, Histone post-translational modifications, medicine, Humans, Enzyme Inhibitors, lcsh:Science, PRDM9, Multidisciplinary, biology, Drug discovery, Chemistry, HEK 293 cells, Histone-Lysine N-Methyltransferase, General Chemistry, DNA Methylation, 3. Good health, Cell biology, Histone, HEK293 Cells, 030104 developmental biology, Molecular Probes, 030220 oncology & carcinogenesis, biology.protein, lcsh:Q, Chemical tools, Carcinogenesis

Abstract

PRDM9 is a PR domain containing protein which trimethylates histone 3 on lysine 4 and 36. Its normal expression is restricted to germ cells and attenuation of its activity results in altered meiotic gene transcription, impairment of double-stranded breaks and pairing between homologous chromosomes. There is growing evidence for a role of aberrant expression of PRDM9 in oncogenesis and genome instability. Here we report the discovery of MRK-740, a potent (IC50: 80 ± 16 nM), selective and cell-active PRDM9 inhibitor (Chemical Probe). MRK-740 binds in the substrate-binding pocket, with unusually extensive interactions with the cofactor S-adenosylmethionine (SAM), conferring SAM-dependent substrate-competitive inhibition. In cells, MRK-740 specifically and directly inhibits H3K4 methylation at endogenous PRDM9 target loci, whereas the closely related inactive control compound, MRK-740-NC, does not. The discovery of MRK-740 as a chemical probe for the PRDM subfamily of methyltransferases highlights the potential for exploiting SAM in targeting SAM-dependent methyltransferases., PRDM9 is a PR domain containing histone methyl transferase which expression is normally restricted to the germline that has also been linked to a number of somatic cancers. Here the authors describe the identification of a small molecule that selectivity inhibits the methyltransferase activity of PRDM9 in biochemical and cellular assays

Published

2019

34. Analysis of binding site similarity, small-molecule similarity and experimental binding profiles in the human cytosolic sulfotransferase family

Author

Najmanovich, Rafael J., Allali-Hassani, Abdellah, Morris, Richard J., Dombrovsky, Ludmila, Pan, Patricia W., Vedadi, Masoud, Plotnikov, Alexander N., Edwards, Aled, Arrowsmith, Cheryl, and Thornton, Janet M.

Published

2007

35. Development of LM98, a Small‐Molecule TEAD Inhibitor Derived from Flufenamic Acid.

Author

Mélin, Léa, Abdullayev, Shuay, Fnaiche, Ahmed, Vu, Victoria, González Suárez, Narjara, Zeng, Hong, Szewczyk, Magdalena M., Li, Fengling, Senisterra, Guillermo, Allali‐Hassani, Abdellah, Chau, Irene, Dong, Aiping, Woo, Simon, Annabi, Borhane, Halabelian, Levon, LaPlante, Steven R., Vedadi, Masoud, Barsyte‐Lovejoy, Dalia, Santhakumar, Vijayaratnam, and Gagnon, Alexandre

Published

2021

36. MLL1 minimal catalytic complex is a dynamic conformational ensemble susceptible to pharmacological allosteric disruption

Author

Alexander Lemak, Masoud Vedadi, Xianyang Fang, Hong Zeng, Marco Faini, Lixin Fan, Shili Duan, Cheryl H. Arrowsmith, Abdellah Allali-Hassani, Lilia Kaustov, Ruedi Aebersold, Scott Houliston, Hong Wu, and Yun-Xing Wang

Subjects

0303 health sciences, biology, Chemistry, Catalytic complex, Protein subunit, Allosteric regulation, MLL1 complex, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, 03 medical and health sciences, Histone, WD40 repeat, Histone methyltransferase, biology.protein, Biophysics, WDR5, 030304 developmental biology

Abstract

Histone H3K4 methylation is an epigenetic mark associated with actively transcribed genes. This modification is catalyzed by the mixed lineage leukaemia (MLL) family of histone methyltransferases including MLL1, MLL2, MLL3, MLL4, SET1A and SET1B. Catalytic activity of MLL proteins is dependent on interactions with additional conserved proteins but the structural basis for subunit assembly and the mechanism of regulation is not well understood. We used a hybrid methods approach to study the assembly and biochemical function of the minimally active MLL1 complex (MLL1, WDR5 and RbBP5). A combination of small angle X-ray scattering (SAXS), cross-linking mass spectrometry (XL-MS), NMR spectroscopy, and computational modeling were used to generate a dynamic ensemble model in which subunits are assembled via multiple weak interaction sites. We identified a new interaction site between the MLL1 SET domain and the WD40 repeat domain of RbBP5, and demonstrate the susceptibility of the catalytic function of the complex to disruption of individual interaction sites.

Published

2018

37. First pass metabolism of ethanol is strikingly influenced by the speed of gastric emptying

Author

Oneta, C M, Simanowski, U A, Martinez, M, Allali-Hassani, A, Pares, X, Homann, N, Conradt, C, Waldherr, R, Fiehn, W, Coutelle, C, and Seitz, H K

Published

1998

38. LLY-507, a Cell-active, Potent, and Selective Inhibitor of Protein-lysine Methyltransferase SMYD2*

Author

Song Wu, Tatiana Shatseva, Dalia Barsyte-Lovejoy, Cheryl H. Arrowsmith, Li Fan, Laura A. Pelletier, Joseph R. Martin, Shawn Chang, Shichong Liu, S. Emtage, David Mendel, Carmen Curtis, Peter Brown, Jonathan B. Olsen, Masoud Vedadi, Abdellah Allali-Hassani, Hannah Nguyen, Stephen Antonysamy, Benjamin A. Garcia, Lisa Hong Chen, Fengling Li, Robert M. Campbell, Feiyu Fred Zhang, Mary M. Mader, and Tarun Gheyi

Subjects

Proteomics, Protein Denaturation, Methyltransferase, Pyrrolidines, Peptide binding, medicine.disease_cause, Crystallography, X-Ray, Biochemistry, Mass Spectrometry, Epigenesis, Genetic, Histones, 0302 clinical medicine, Neoplasms, Histone methylation, Protein methylation, Enzyme Inhibitors, cancer biology, SMYD2, 0303 health sciences, biology, chemical probe, Molecular Bases of Disease, Chromatin, 3. Good health, Histone, 030220 oncology & carcinogenesis, Benzamides, Crystallization, crystal structure, enzyme inhibitor, Antineoplastic Agents, 03 medical and health sciences, Cell Line, Tumor, medicine, Humans, protein methylation, Molecular Biology, 030304 developmental biology, Cell Proliferation, epigenetics, Dose-Response Relationship, Drug, Cell growth, Computational Biology, Cell Biology, Histone-Lysine N-Methyltransferase, Molecular biology, biology.protein, methyltransferase, Drug Screening Assays, Antitumor, Tumor Suppressor Protein p53, Carcinogenesis, Peptides

Abstract

Background: SMYD2 is a methyltransferase whose role in cancer is poorly understood and is lacking cell-active chemical tools. Results: We describe LLY-507, a small molecule inhibitor of SMYD2. Conclusion: LLY-507 is potent, selective, cell-active, and binds SMYD2 in a high resolution co-crystal. Significance: LLY-507 is a first-in-class cell-potent chemical probe that will be valuable in dissecting SMYD2 biology., SMYD2 is a lysine methyltransferase that catalyzes the monomethylation of several protein substrates including p53. SMYD2 is overexpressed in a significant percentage of esophageal squamous primary carcinomas, and that overexpression correlates with poor patient survival. However, the mechanism(s) by which SMYD2 promotes oncogenesis is not understood. A small molecule probe for SMYD2 would allow for the pharmacological dissection of this biology. In this report, we disclose LLY-507, a cell-active, potent small molecule inhibitor of SMYD2. LLY-507 is >100-fold selective for SMYD2 over a broad range of methyltransferase and non-methyltransferase targets. A 1.63-Å resolution crystal structure of SMYD2 in complex with LLY-507 shows the inhibitor binding in the substrate peptide binding pocket. LLY-507 is active in cells as measured by reduction of SMYD2-induced monomethylation of p53 Lys370 at submicromolar concentrations. We used LLY-507 to further test other potential roles of SMYD2. Mass spectrometry-based proteomics showed that cellular global histone methylation levels were not significantly affected by SMYD2 inhibition with LLY-507, and subcellular fractionation studies indicate that SMYD2 is primarily cytoplasmic, suggesting that SMYD2 targets a very small subset of histones at specific chromatin loci and/or non-histone substrates. Breast and liver cancers were identified through in silico data mining as tumor types that display amplification and/or overexpression of SMYD2. LLY-507 inhibited the proliferation of several esophageal, liver, and breast cancer cell lines in a dose-dependent manner. These findings suggest that LLY-507 serves as a valuable chemical probe to aid in the dissection of SMYD2 function in cancer and other biological processes.

Published

2015

39. Remodelin Is a Cryptic Assay Interference Chemotype That Does Not Inhibit NAT10-Dependent Cytidine Acetylation.

Author

Shrimp, Jonathan H., Jing, Yihang, Gamage, Supuni Thalalla, Nelson, Kathryn M., Han, Joseph, Bryson, Keri M., Montgomery, David C., Thomas, Justin M., Nance, Kellie D., Sharma, Sunny, Fox, Stephen D., Andressen, Thorkell, Sinclair, Wilson R., Wu, Hong, Allali-Hassani, Abdellah, Senisterra, Guillermo, Vedadi, Masoud, Lafontaine, Denis, Dahlin, Jayme L., and Marmorstein, Ronen

Published

2021

40. Kinetic effects of a single-amino acid mutation in a highly variable loop (residues 114–120) of class IV ADH

Author

Allali-Hassani, Abdellah, Crosas, Bernat, Parés, Xavier, and Farrés, Jaume

Published

2001

41. Interaction of human aldehyde dehydrogenase with aromatic substrates and ligands

Author

Allali-Hassani, Abdellah and Weiner, Henry

Published

2001

42. Discovery of Small-Molecule Antagonists of the PWWP Domain of NSD2.

Author

Ferreira de Freitas, Renato, Liu, Yanli, Szewczyk, Magdalena M., Mehta, Naimee, Li, Fengling, McLeod, David, Zepeda-Velázquez, Carlos, Dilworth, David, Hanley, Ronan P., Gibson, Elisa, Brown, Peter J., Al-Awar, Rima, James, Lindsey I., Arrowsmith, Cheryl H., Barsyte-Lovejoy, Dalia, Min, Jinrong, Vedadi, Masoud, Schapira, Matthieu, and Allali-Hassani, Abdellah

Published

2021

43. Molecular Basis for Differential Substrate Specificity in Class IV Alcohol Dehydrogenases: A CONSERVED FUNCTION IN RETINOID METABOLISM BUT NOT IN ETHANOL OXIDATION

Author

Crosas, Bernat, Allali-Hassani, Abdellah, Martı́nez, Susana Eva, Martras, Sı́lvia, Persson, Bengt, Jörnvall, Hans, Parés, Xavier, and Farrés, Jaume

Published

2000

44. Global Profiling of Acetyltransferase Feedback Regulation

Author

Abdellah Allali-Hassani, Rhushikesh A. Kulkarni, Masoud Vedadi, Julie M. Garlick, Steven Kennedy, David C. Montgomery, Jordan L. Meier, Hong Wu, Yin-Ming Kuo, and Andrew J. Andrews

Subjects

0301 basic medicine, Cell signaling, Lysine Acetyltransferases, Metabolite, Computational biology, Biochemistry, Article, Catalysis, 03 medical and health sciences, chemistry.chemical_compound, Colloid and Surface Chemistry, Tandem Mass Spectrometry, Humans, Coenzyme A, chemistry.chemical_classification, Chemistry, General Chemistry, Small molecule, 030104 developmental biology, Enzyme, Acetyltransferase, Proteome, Signal transduction, Chromatography, Liquid, HeLa Cells, Signal Transduction

Abstract

Lysine acetyltransferases (KATs) are key mediators of cell signaling. Methods capable of providing new insights into their regulation thus constitute an important goal. Here we report an optimized platform for profiling KAT-ligand interactions in complex proteomes using inhibitor-functionalized capture resins. This approach greatly expands the scope of KATs, KAT complexes, and CoA-dependent enzymes accessible to chemoproteomic methods. This enhanced profiling platform is then applied in the most comprehensive analysis to date of KAT inhibition by the feedback metabolite CoA. Our studies reveal that members of the KAT superfamily possess a spectrum of sensitivity to CoA, and highlight NAT10 as a novel KAT that may be susceptible to metabolic feedback inhibition. This platform provides a powerful tool to define the potency and selectivity of reversible stimuli, such as small molecules and metabolites, that regulate KAT-dependent signaling.

Published

2016

45. Methylation-state-specific recognition of histones by the MBT repeat protein L3MBTL2

Author

Abdellah Allali-Hassani, Yahong Guo, Masoud Vedadi, Chao Qi, Jinrong Min, Patricia W. Pan, Nataliya Nady, Matthieu Schapira, Maria F. Amaya, Cheryl H. Arrowsmith, Aiping Dong, Randy J. Read, Melanie A. Adams-Cioaba, Haizhong Zhu, Read, Randy [0000-0001-8273-0047], and Apollo - University of Cambridge Repository

Subjects

Models, Molecular, Repetitive Sequences, Amino Acid, animal structures, Protein family, Plasma protein binding, Gene Regulation, Chromatin and Epigenetics, Methylation, Histones, 03 medical and health sciences, 0302 clinical medicine, Genetics, Gene silencing, Humans, Hox gene, Gene, 030304 developmental biology, 0303 health sciences, biology, Rhomboid, Lysine, Nuclear Proteins, Repressor Proteins, Histone, 030220 oncology & carcinogenesis, embryonic structures, biology.protein, Peptides, Protein Binding, Transcription Factors

Abstract

The MBT repeat has been recently identified as a key domain capable of methyl-lysine histone recognition. Functional work has pointed to a role for MBT domain-containing proteins in transcriptional repression of developmental control genes such as Hox genes. In this study, L3MBTL2, a human homolog of Drosophila Sfmbt critical for Hox gene silencing, is demonstrated to preferentially recognize lower methylation states of several histone-derived peptides through its fourth MBT repeat. High-resolution crystallographic analysis of the four MBT repeats of this protein reveals its unique asymmetric rhomboid architecture, as well as binding mechanism, which preclude the interaction of the first three MBT repeats with methylated peptides. Structural elucidation of an L3MBTL2-H4K20me1 complex and comparison with other MBT-histone peptide complexes also suggests that an absence of distinct surface contours surrounding the methyl-lysine-binding pocket may underlie the lack of sequence specificity observed for members of this protein family.

Published

2009

46. A Chemical Probe for Tudor Domain Protein Spindlin1 to Investigate Chromatin Function.

Author

Fagan, Vincent, Johansson, Catrine, Gileadi, Carina, Monteiro, Octovia, Dunford, James E., Nibhani, Reshma, Philpott, Martin, Malzahn, Jessica, Wells, Graham, Faram, Ruth, Cribbs, Adam P., Halidi, Nadia, Li, Fengling, Chau, Irene, Greschik, Holger, Velupillai, Srikannathasan, Allali-Hassani, Abdellah, Bennett, James, Christott, Thomas, and Giroud, Charline

Published

2019

47. The MLL1 trimeric catalytic complex is a dynamic conformational ensemble stabilized by multiple weak interactions.

Author

Kaustov, Lilia, Lemak, Alexander, Wu, Hong, Faini, Marco, Fan, Lixin, Fang, Xianyang, Zeng, Hong, Duan, Shili, Allali-Hassani, Abdellah, Li, Fengling, Wei, Yong, Vedadi, Masoud, Aebersold, Ruedi, Wang, Yunxing, Houliston, Scott, and Arrowsmith, Cheryl H

Published

2019

48. Discovery of Bisubstrate Inhibitors of Nicotinamide N-Methyltransferase (NNMT).

Author

Babault, Nicolas, Allali-Hassani, Abdellah, Fengling Li, Jie Fan, Alex Yue, Kevin Ju, Feng Liu, Vedadi, Masoud, Jing Liu, and Jian Jin

Subjects

*CHEMICAL inhibitors, *NICOTINAMIDE, *METHYLTRANSFERASES, *PYRIDINE, *METHIONINE

Abstract

Nicotinamide N-methyltransferase (NNMT) catalyzes the N-methylation of pyridine-containing compounds using the cofactor S-5'-adenosyl-l-methionine (SAM) as the methyl group donor. Through the regulation of the levels of its substrates, cofactor, and products, NNMT plays an important role in physiology and pathophysiology. Overexpression of NNMT has been implicated in various human diseases. Potent and selective small-molecule NNMT inhibitors are valuable chemical tools for testing biological and therapeutic hypotheses. However, very few NNMT inhibitors have been reported. Here, we describe the discovery of a bisubstrate NNMT inhibitor MS2734 (6) and characterization of this inhibitor in biochemical, biophysical, kinetic, and structural studies. Importantly, we obtained the first crystal structure of human NNMT in complex with a small-molecule inhibitor. The structure of the NNMT-6 complex has unambiguously demonstrated that 6 occupied both substrate and cofactor binding sites. The findings paved the way for developing more potent and selective NNMT inhibitors in the future. [ABSTRACT FROM AUTHOR]

Published

2018

49. The Cryptosporidium parvum kinome

Author

Masoud Vedadi, Tom D. Heightman, Irene Chau, Abdellah Allali-Hassani, A.K. Roos, Jocelyne Lew, Oliver N. King, Y. Zhao, Ashley Hutchinson, Wei Qiu, Guillermo Senisterra, Raymond Hui, Jennifer D. Artz, Farrell MacKenzie, Gregory A. Wasney, P.J. Finerty, Vlad V Lunin, Kevan M. Shokat, Amy K. Wernimont, Frank von Delft, Matthieu Schapira, Y.H. Lin, M. Amani, Oleg Fedorov, Chao Zhang, and Ivona Kozieradzki

Subjects

lcsh:QH426-470, lcsh:Biotechnology, Plasmodium falciparum, Protozoan Proteins, Biology, Microbiology, Maternal embryonic leucine zipper kinase, 03 medical and health sciences, lcsh:TP248.13-248.65, parasitic diseases, Genetics, Kinome, Databases, Protein, CAMK, 030304 developmental biology, Cryptosporidium parvum, 0303 health sciences, Kinase, 030302 biochemistry & molecular biology, biology.organism_classification, Protein Structure, Tertiary, 3. Good health, lcsh:Genetics, Protein kinase domain, Mitogen-activated protein kinase, biology.protein, Casein kinase 1, Protein Kinases, Toxoplasma, Research Article, Biotechnology

Abstract

Background Hundreds of millions of people are infected with cryptosporidiosis annually, with immunocompromised individuals suffering debilitating symptoms and children in socioeconomically challenged regions at risk of repeated infections. There is currently no effective drug available. In order to facilitate the pursuit of anti-cryptosporidiosis targets and compounds, our study spans the classification of the Cryptosporidium parvum kinome and the structural and biochemical characterization of representatives from the CDPK family and a MAP kinase. Results The C. parvum kinome comprises over 70 members, some of which may be promising drug targets. These C. parvum protein kinases include members in the AGC, Atypical, CaMK, CK1, CMGC, and TKL groups; however, almost 35% could only be classified as OPK (other protein kinases). In addition, about 25% of the kinases identified did not have any known orthologues outside of Cryptosporidium spp. Comparison of specific kinases with their Plasmodium falciparum and Toxoplasma gondii orthologues revealed some distinct characteristics within the C. parvum kinome, including potential targets and opportunities for drug design. Structural and biochemical analysis of 4 representatives of the CaMK group and a MAP kinase confirms features that may be exploited in inhibitor design. Indeed, screening CpCDPK1 against a library of kinase inhibitors yielded a set of the pyrazolopyrimidine derivatives (PP1-derivatives) with IC50 values of < 10 nM. The binding of a PP1-derivative is further described by an inhibitor-bound crystal structure of CpCDPK1. In addition, structural analysis of CpCDPK4 identified an unprecedented Zn-finger within the CDPK kinase domain that may have implications for its regulation. Conclusions Identification and comparison of the C. parvum protein kinases against other parasitic kinases shows how orthologue- and family-based research can be used to facilitate characterization of promising drug targets and the search for new drugs.

Published

2011

50. Protein Lysine Methyltransferase G9a Inhibitors: Design, Synthesis, and Structure Activity Relationships of 2,4-Diamino-7-aminoalkoxy-quinazolines.†

Author

Alena Siarheyeva, Guillermo Senisterra, Amy M. Quinn, J. Martin Herold, Aiping Dong, Masoud Vedadi, Xin Chen, Cheryl H. Arrowsmith, Jacqueline L. Norris, Dmitri Kireev, Gregory A. Wasney, Tim J. Wigle, Jian Jin, Stephen V. Frye, Ajit Jadhav, Peter Brown, Irene Chau, Anton Simeonov, William P. Janzen, Feng Liu, and Abdellah Allali-Hassani

Subjects

Models, Molecular, Stereochemistry, Chemistry, Protein Conformation, Lysine, Methylation, Azepines, Histone-Lysine N-Methyltransferase, Crystallography, X-Ray, Small molecule, Article, EHMT2, Histone H3, Structure-Activity Relationship, Protein structure, Biochemistry, Drug Design, Histocompatibility Antigens, Drug Discovery, Quinazolines, Molecular Medicine, Structure–activity relationship, Humans, Protein Binding

Abstract

Protein lysine methyltransferase G9a, which catalyzes methylation of lysine 9 of histone H3 (H3K9) and lysine 373 (K373) of p53, is overexpressed in human cancers. Genetic knockdown of G9a inhibits cancer cell growth, and the dimethylation of p53 K373 results in the inactivation of p53. Initial SAR exploration of the 2,4-diamino-6,7-dimethoxyquinazoline template represented by 3a (BIX01294), a selective small molecule inhibitor of G9a and GLP, led to the discovery of 10 (UNC0224) as a potent G9a inhibitor with excellent selectivity. A high resolution X-ray crystal structure of the G9a-10 complex, the first cocrystal structure of G9a with a small molecule inhibitor, was obtained. On the basis of the structural insights revealed by this cocrystal structure, optimization of the 7-dimethylaminopropoxy side chain of 10 resulted in the discovery of 29 (UNC0321) (Morrison K(i) = 63 pM), which is the first G9a inhibitor with picomolar potency and the most potent G9a inhibitor to date.

Published

2010