Your search keyword '"Alexander Flohr"' showing total 43 results

1. A high quality, industrial data set for binding affinity prediction: performance comparison in different early drug discovery scenarios.

Author

Andreas Tosstorff, Markus G. Rudolph, Jason C. Cole, Michael Reutlinger, Christian Kramer, Hervé Schaffhauser, Agnès Nilly, Alexander Flohr, and Bernd Kuhn

Published

2022

2. Sex Differences in Cardiovascular Research: A Scientometric Analysis

Author

Dominic Millenaar, Markus Dillmann, Tobias Fehlmann, Alexander Flohr, Roxana Mehran, Rasha Al‐Lamee, Lucas Lauder, Christian Ukena, Michael Böhm, Andreas Keller, and Felix Mahfoud

Subjects

cardiovascular, citation analysis, gender, research, sex, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background We sought to investigate sex‐specific differences in authorship of cardiovascular research over the past decade. Methods and Results All 387 463 cardiovascular publications between 2010 and 2019 were retrieved from Web of Science. Articles increased from 19 960 to 29 604 articles per year (P>0.001). The number of articles written by female first authors increased by 76.3% (6434–11 343 articles) and by 35.0% for male first authors (13 526–18 261) (P

Published

2022

3. Supplementary Methods and Materials from Preclinical Profile of a Potent γ-Secretase Inhibitor Targeting Notch Signaling with In vivo Efficacy and Pharmacodynamic Properties

Author

John F. Boylan, David Heimbrook, Kelli Glenn, Helmut Jacobsen, Roland Jakob-Røtne, Alexander Flohr, Michael Linn, Holly Hilton, Windy Berkofsky-Fessler, James Cai, John Roberts, Daisy Carvajal, Maria Vilenchik, Kathryn Packman, Melissa Smith, Wei He, and Leopoldo Luistro

Abstract

Supplementary Methods and Materials from Preclinical Profile of a Potent γ-Secretase Inhibitor Targeting Notch Signaling with In vivo Efficacy and Pharmacodynamic Properties

Published

2023

4. Supplementary Figure 2 from Preclinical Profile of a Potent γ-Secretase Inhibitor Targeting Notch Signaling with In vivo Efficacy and Pharmacodynamic Properties

Author

John F. Boylan, David Heimbrook, Kelli Glenn, Helmut Jacobsen, Roland Jakob-Røtne, Alexander Flohr, Michael Linn, Holly Hilton, Windy Berkofsky-Fessler, James Cai, John Roberts, Daisy Carvajal, Maria Vilenchik, Kathryn Packman, Melissa Smith, Wei He, and Leopoldo Luistro

Abstract

Supplementary Figure 2 from Preclinical Profile of a Potent γ-Secretase Inhibitor Targeting Notch Signaling with In vivo Efficacy and Pharmacodynamic Properties

Published

2023

5. Data from Preclinical Profile of a Potent γ-Secretase Inhibitor Targeting Notch Signaling with In vivo Efficacy and Pharmacodynamic Properties

Author

John F. Boylan, David Heimbrook, Kelli Glenn, Helmut Jacobsen, Roland Jakob-Røtne, Alexander Flohr, Michael Linn, Holly Hilton, Windy Berkofsky-Fessler, James Cai, John Roberts, Daisy Carvajal, Maria Vilenchik, Kathryn Packman, Melissa Smith, Wei He, and Leopoldo Luistro

Abstract

Notch signaling is an area of great interest in oncology. RO4929097 is a potent and selective inhibitor of γ-secretase, producing inhibitory activity of Notch signaling in tumor cells. The RO4929097 IC50 in cell-free and cellular assays is in the low nanomolar range with >100-fold selectivity with respect to 75 other proteins of various types (receptors, ion channels, and enzymes). RO4929097 inhibits Notch processing in tumor cells as measured by the reduction of intracellular Notch expression by Western blot. This leads to reduced expression of the Notch transcriptional target gene Hes1. RO4929097 does not block tumor cell proliferation or induce apoptosis but instead produces a less transformed, flattened, slower-growing phenotype. RO4929097 is active following oral dosing. Antitumor activity was shown in 7 of 8 xenografts tested on an intermittent or daily schedule in the absence of body weight loss or Notch-related toxicities. Importantly, efficacy is maintained after dosing is terminated. Angiogenesis reverse transcription-PCR array data show reduced expression of several key angiogenic genes. In addition, comparative microarray analysis suggests tumor cell differentiation as an additional mode of action. These preclinical results support evaluation of RO4929097 in clinical studies using an intermittent dosing schedule. A multicenter phase I dose escalation study in oncology is under way. [Cancer Res 2009;69(19):7672–80]

Published

2023

6. Research in Atrial Fibrillation

Author

Sean S. Scholz, BS Markus Dillmann, Tobias Fehlmann, Felix Mahfoud, Michael Böhm, Dominic Millenaar, Andreas Keller, Valerie Pavlicek, Christian Ukena, and BS Alexander Flohr

Subjects

International research, education.field_of_study, business.industry, Population, Atrial fibrillation, 030204 cardiovascular system & hematology, Scientometrics, Bibliometrics, medicine.disease, Medical research, 03 medical and health sciences, 0302 clinical medicine, Citation analysis, medicine, Web application, 030212 general & internal medicine, business, education, Demography

Abstract

Objectives This study sought to determine the quantity and quality of publications in AF research using large-scale scientometric data analyses. Background Research in atrial fibrillation (AF) has increased over time. The increasing number of research papers makes it harder to identify relevant research work. Methods All 21,603 publications from 1945 to 2018 were retrieved from Web of Science and analyzed regarding geographical distribution of scientific output and international research cooperation. Results The total number of AF publications has significantly increased since the millennium change, from 3,063 (14.2%) in 1945 to 1999 to 18,540 (85.8%) publications in 2000 to 2018. AF research grew 10-fold compared with overall medical research since 1990 (ratio of AF publications to all publications: 0.02% (n = 99 of 410,701) in 1990 vs. 0.2% (n = 1,967 of 1,172,649) in 2018; p Conclusions This study showed an increase in publication activity in AF research. The United States was the leading country in quantity of research efforts. Related to population and research institutes, Denmark ranked first.

Published

2020

7. Sex Differences in Cardiovascular Research: A Scientometric Analysis

Author

Dominic, Millenaar, Markus, Dillmann, Tobias, Fehlmann, Alexander, Flohr, Roxana, Mehran, Rasha, Al-Lamee, Lucas, Lauder, Christian, Ukena, Michael, Böhm, Andreas, Keller, and Felix, Mahfoud

Subjects

Male, Sex Characteristics, Africa, North America, Humans, Female, Authorship

Abstract

Background We sought to investigate sex-specific differences in authorship of cardiovascular research over the past decade. Methods and Results All 387 463 cardiovascular publications between 2010 and 2019 were retrieved from Web of Science. Articles increased from 19 960 to 29 604 articles per year (

Published

2021

8. Abstract 3929: Identification of MRT-2359 a potent, selective and orally bioavailable GSPT1-directed molecular glue degrader (MGD) for the treatment of cancers with Myc-induced translational addiction

Author

Gerald Gavory, Mahmoud Ghandi, Anne-Cecile d’Alessandro, Debora Bonenfant, Agustin Chicas, Frederic Delobel, Brad Demarco, Alexander Flohr, Christopher King, Anne-Laure Laine, Vittoria Massafra, Rajiv Narayan, Arnaud Osmont, Giorgio Ottaviani, Dave Peck, Sarah Pessa, Nooreen Rubin, Thomas Ryckmans, Martin Schillo, Ambika Singh, Simone Tortoioli, Dominico Vigil, Vladislav Zarayskiy, John Castle, Filip Janku, Owen Wallace, Silvia Buonamici, and Bernhard Fasching

Subjects

Cancer Research, Oncology

Abstract

Myc transcription factors are well-established drivers of human cancers. However, despite being amongst the most frequently mutated, translocated and overexpressed oncogenes, no therapy targeting the Myc family members directly has been developed to date. To sustain uncontrolled cell proliferation and tumor growth, Myc-driven cancers are known to be addicted to protein translation. This addiction creates a dependency on critical components of the translational machinery providing in turn a unique opportunity for therapeutic intervention. We hypothesized that targeting the translational termination factor GSPT1, a key regulator of protein synthesis, would constitute a vulnerability for Myc-driven tumors. GSPT1 contains a well-defined degron allowing for the recruitment of the E3 ligase cereblon (CRBN) and subsequent proteasomal degradation in the presence of molecular glue degraders. Herein we describe a novel orally bioavailable GSPT1-directed small molecule degrader MRT-2359, which has been rationally designed and optimized to selectively induce apoptosis in translationally addicted cells. MRT-2359 promotes complex formation between CRBN and GSPT1 and potently induces GSPT1 degradation in a CRBN- and degron-dependent manner. The high selectivity of MRT-2359 was subsequently demonstrated by the lack of activity in cells expressing a non-degradable GSPT1 mutant. Although MRT-2359 degrades GSPT1 in all the cell lines tested, profiling in a large panel of cancer lines revealed profound and preferential antiproliferative activity in Myc-driven cell lines, such as high N-Myc expressing non-small cell lung cancer (NSCLC) lines and high L-Myc expressing small cell lung cancer (SCLC) lines. In the Myc-driven cells, degradation of GSPT1 led to translational repression as manifested by a global shift from polysomes to monosomes resulting in the reduction of a subset of proteins as assessed by quantitative proteomics. In particular, N- or L-Myc protein levels decreased and as a consequence the known Myc target genes were downregulated at the mRNA level. Despite the robust degradation of GSPT1, no marked effect was observed in low N-Myc lines, confirming the selective activity of our GSPT1 degrader in Myc-driven lung cancers. Finally, oral administration of MRT-2359 in high N-Myc NSCLC xenografts and PDXs led to complete intratumoral GSPT1 degradation and concomitant decrease in N-Myc protein levels, resulting in tumor regression. In contrast, MRT-2359 had limited or no activity in low N-Myc NSCLC models, further corroborating the selective vulnerability of Myc-driven tumors to GSPT1 degradation. Together these data support the therapeutic potential of GSPT1-directed MGDs in Myc-driven solid tumors addicted to the protein translation machinery and warrant rapid evaluation towards the clinic. Citation Format: Gerald Gavory, Mahmoud Ghandi, Anne-Cecile d’Alessandro, Debora Bonenfant, Agustin Chicas, Frederic Delobel, Brad Demarco, Alexander Flohr, Christopher King, Anne-Laure Laine, Vittoria Massafra, Rajiv Narayan, Arnaud Osmont, Giorgio Ottaviani, Dave Peck, Sarah Pessa, Nooreen Rubin, Thomas Ryckmans, Martin Schillo, Ambika Singh, Simone Tortoioli, Dominico Vigil, Vladislav Zarayskiy, John Castle, Filip Janku, Owen Wallace, Silvia Buonamici, Bernhard Fasching. Identification of MRT-2359 a potent, selective and orally bioavailable GSPT1-directed molecular glue degrader (MGD) for the treatment of cancers with Myc-induced translational addiction [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 3929.

Published

2022

9. Abstract LBA004: Identification of GSPT1-directed molecular glue degrader (MGD) for the treatment of Myc-driven breast cancer

Author

Gerald Gavory, Bernhard Fasching, Debora Bonenfant, Amine Sadok, Ambika Singh, Martin Schillo, Vittoria Massafra, Anne-Cecile d’Alessandro, John Castle, Mahmoud Ghandi, Agustin Chicas, Frederic Delobel, Alexander Flohr, Giorgio Ottaviani, Thomas Ryckmans, Anne-Laure Laine, Oliv Eidam, Hannah Wang, Ilona Bernett, Laura Chan, Chiara Gorrini, Theo Roumiliotis, Jyoti Choudhary, Yann-Vai LeBihan, Marc Cabry, Mark Stubbs, Rosemary Burke, Rob Van Montfort, John Caldwell, Rajesh Chopra, Ian Collins, and Silvia Buonamici

Subjects

Cancer Research, Oncology

Abstract

The Myc family of transcription factors is a well-established driver of human cancers. However, despite being amongst the most frequently mutated, translocated and overexpressed oncogenes, no therapy directly targeting the Myc family members has been developed to date. Abnormal activation of Myc results in uncontrolled cell growth that is associated with high translational output and ramp up of the protein translational machinery. This creates a dependency to protein translation and in turn represents a potential therapeutic vulnerability for Myc-driven tumors. Based on these considerations, we hypothesized that targeting the translational termination factor GSPT1, a key player of protein synthesis, may constitute a vulnerability for Myc-driven tumors. Using our proprietary Quantitative and Engineered Elimination of Neosubstrates (QuEENTM) platform we characterized and explored the known G-loop degron in GSPT1 that renders it amenable to cereblon-induced degradation by molecular glue degraders (MGDs). We rationally designed and subsequently screened a proprietary library of cereblon-binding small molecules, including GSPT1-directed MGDs, in human mammary epithelial cells (HMECs) expressing doxycycline-inducible c-Myc. Doxycycline treatment led to sustained c-Myc expression and as a consequence to the induction of key biomarkers of enhanced protein translation, such as phospho 4EBP1 (p4EBP1). We identified MRT-048 as a potent and highly selective GSPT1 degrader and demonstrated its ability to induce cell death in Myc-driven HMEC cells whilst sparing control cells (EC50 0.64 μM vs 30 μM respectively). This confirmed the selective vulnerability of Myc-driven cell growth to GSPT1 degradation. In follow-up studies, we confirmed the correlation between p4EBP1 as biomarker of Myc-activation and sensitivity to MRT-048 in a large panel of breast cancer cell lines. Moreover, MRT-048 treatment of animals xenografted with breast cancer cells induced tumor regression and was associated with complete GSPT1 degradation. Mechanistically, we observed that GSPT1 degradation induced by MRT-048 led to inhibition of genes regulated by Myc and ribosomal stalling at stop codons of several mRNAs. Additionally, polysome profiling of cancer cells treated with MRT-048 was associated with a global reduction of the intensities of the polysome peaks and concomitant increase in the monosome peaks as previously observed in GSPT1 knockdown experiments, suggesting that GSPT1 degradation by our MGD molecules affects both the termination and initiation stages of protein translation. We believe these data support the therapeutic potential of GSPT1-directed MGDs in Myc-driven tumors dependent on protein translation machinery. Citation Format: Gerald Gavory, Bernhard Fasching, Debora Bonenfant, Amine Sadok, Ambika Singh, Martin Schillo, Vittoria Massafra, Anne-Cecile d’Alessandro, John Castle, Mahmoud Ghandi, Agustin Chicas, Frederic Delobel, Alexander Flohr, Giorgio Ottaviani, Thomas Ryckmans, Anne-Laure Laine, Oliv Eidam, Hannah Wang, Ilona Bernett, Laura Chan, Chiara Gorrini, Theo Roumiliotis, Jyoti Choudhary, Yann-Vai LeBihan, Marc Cabry, Mark Stubbs, Rosemary Burke, Rob Van Montfort, John Caldwell, Rajesh Chopra, Ian Collins, Silvia Buonamici. Identification of GSPT1-directed molecular glue degrader (MGD) for the treatment of Myc-driven breast cancer [abstract]. In: Proceedings of the AACR-NCI-EORTC Virtual International Conference on Molecular Targets and Cancer Therapeutics; 2021 Oct 7-10. Philadelphia (PA): AACR; Mol Cancer Ther 2021;20(12 Suppl):Abstract nr LBA004.

Published

2021

10. Moderne Materialien für die Instandsetzung von historischen Betonbauteilen

Author

Franziska Vogt, Alexander Flohr, Alexander Gypser, and Andrea Osburg

Abstract

Mit dem PSCC (Polymermodified Self Compacting Concrete) ist es gelungen, ein innovatives Instandsetzungsmaterial für Betonbauteile zu entwickeln, dessen mechanische und optische Eigenschaften gezielt auf das instandzusetzende Objekt abgestimmt werden können. Durch die besonderen Eigenschaften des PSCC ist es möglich, Dünnschicht-Betoninstandsetzungen durchzuführen und gleichzeitig die originale Oberflächentextur des Altbetons durch den Einsatz geeigneter Schalungsmaterialien nachzuempfinden. Obwohl PSCC ein Hochleistungswerkstoff ist, ist sowohl seine Herstellung als auch sein Einbau mittels einfacher, konventioneller Baustellentechnik möglich. Es werden robuste Frischbetoneigenschaften und eine hervorragende Oberflächenqualität erzielt. Nach mehr als zwei Jahren PSCC-Anwendung konnten bislang keine Schäden an den damit sanierten Flächen festgestellt werden. Der Beitrag informiert über die Zusammensetzung und Materialeigenschaften des PSCC (Frisch- und Festbetoneigenschaften, Schwindverhalten, Haftverbund, Dauerhaftigkeit). Am Beispiel der Instandsetzung eines historischen Wasserlaufs aus Beton (an der Wassermühle im niedersächsischen Ort Räbke) wird beschrieben, wie man bei der Verarbeitung des PSCC vorgeht. Diese Metadaten wurden zur Verfügung gestellt von der Literaturdatenbank RSWB®plus

Published

2018

11. Research in Atrial Fibrillation: A Scientometric Analysis Using the Novel Web Application SciPE

Author

Dominic, Millenaar, Tobias, Fehlmann, Sean, Scholz, Valérie, Pavlicek, Alexander, Flohr, Markus, Dillmann, Michael, Böhm, Andreas, Keller, Felix, Mahfoud, and Christian, Ukena

Subjects

Biomedical Research, Bibliometrics, International Cooperation, Atrial Fibrillation, Humans, United Kingdom, United States

Abstract

This study sought to determine the quantity and quality of publications in AF research using large-scale scientometric data analyses.Research in atrial fibrillation (AF) has increased over time. The increasing number of research papers makes it harder to identify relevant research work.All 21,603 publications from 1945 to 2018 were retrieved from Web of Science and analyzed regarding geographical distribution of scientific output and international research cooperation.The total number of AF publications has significantly increased since the millennium change, from 3,063 (14.2%) in 1945 to 1999 to 18,540 (85.8%) publications in 2000 to 2018. AF research grew 10-fold compared with overall medical research since 1990 (ratio of AF publications to all publications: 0.02% (n = 99 of 410,701) in 1990 vs. 0.2% (n = 1,967 of 1,172,649) in 2018; p 0.05). Quantitatively, the United States contributed 25.9% of AF research, followed by Japan (8.0%), Germany (7.8%), China (7.3%), and the United Kingdom (5.9%). In the all-time modified h-index, the United States ranked first (13.3% of all nations), followed by Canada (8.5%) and the United Kingdom (6.3%). In relation to population, Denmark was the best-rated nation, with the lowest number of inhabitants per publication (11,457), followed by Sweden (18,426) and the Netherlands (25,749), and per modified h-index (90,746), followed by Sweden (170,602) and the Netherlands (218,203). Measuring publications per research institute, Denmark again ranked first, with 19.2 publications per institute, followed by Italy (14.9) and Sweden (13.8). An intensive cooperation between nations was apparent.This study showed an increase in publication activity in AF research. The United States was the leading country in quantity of research efforts. Related to population and research institutes, Denmark ranked first.

Published

2020

12. EGFR Oncogenes Expressed In Glioblastoma Are Activated As Covalent Dimers And Paradoxically Stimulated By Erlotinib

Author

Alexander Flohr, Jie Zhang, Andrei Salomatov, Matthew O'Connor, Darlene Romashko, Elizabeth Buck, Roberto Iacone, Noboru Ishiyama, David Epstein, Sandra Markovic, Alexander V. Mayweg, and Theodore Nicolaides

Subjects

Mutation, Chemistry, Kinase, Epidermal growth factor, Allosteric regulation, medicine, Cancer research, Extracellular, medicine.disease_cause, Carcinogenesis, Small molecule, EGFR inhibitors

Abstract

Mutation of both the intracellular catalytic domain and the extracellular domain of the receptor for epidermal growth factor (EGFR) can drive oncogenicity. Despite clinical success with targeting EGFR catalytic site mutations, no drugs have proven effective in patients expressing allosteric extracellular domain EGFR mutations, including glioblastomas (GBM) where these mutations are highly expressed. We define the molecular mechanism for oncogenic activation of families of extracellular EGFR mutations and reveal how this mechanism renders current generation small molecule ATP-site inhibitors ineffective. We demonstrate that a group of commonly expressed extracellular domain EGFR mutants expressed in GBM is activated by disulfide-bond mediated covalent dimerization, collectively referred to as locked dimerization (LoDi) EGFR oncogenes. Strikingly, small molecules binding to the active kinase conformation (Type I), but not those binding to the inactive kinase conformation (Type II), potently inhibit catalytic site mutants, but induce covalent dimerization and activate LoDi-EGFR oncogenes, manifesting in paradoxical acceleration of proliferation.SignificanceOur data demonstrate how the locked-dimer mechanism of EGFR oncogenesis has a profound impact on the activity of small molecule inhibitors. This provides a mechanistic understanding for the failure of current generation EGFR inhibitors to effectively treat LoDi-EGFR mutants in GBM, and sets guidelines for discovery of selective LoDi-EGFR inhibitors.

Published

2019

13. Contemporary scientometric analyses using a novel web application: the science performance evaluation (SciPE) approach

Author

Andreas Keller, Christian Ukena, Dominic Millenaar, Alexander Flohr, Tobias Fehlmann, Christina Backes, Markus Dillmann, Felix Mahfoud, Sean S. Scholz, and Michael Böhm

Subjects

medicine.medical_specialty, Biomedical Research, media_common.quotation_subject, International Cooperation, Population, 030204 cardiovascular system & hematology, Bibliometrics, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Web application, Humans, 030212 general & internal medicine, education, media_common, Protocol (science), education.field_of_study, Creative visualization, Metadata, Information retrieval, business.industry, Subject (documents), General Medicine, Identification (information), Cardiology, Cardiology and Cardiovascular Medicine, business

Abstract

We aimed at developing a structured study protocol utilizing the bibliographic web-application science performance evaluation (SciPE) to perform comprehensive scientometric analyses. Metadata related to publications derived from online databases were processed and visualized by transferring the information to an undirected multipartite graph and distinct partitioned sets of nodes. Also, institution-specific data were normalized and merged allowing precise geocoordinate positioning, to enable heatmapping and valid identification. As a result, verified, processed data regarding articles, institutions, journals, authors gender, nations and subject categories can be obtained. We recommend including the total number of publications, citations, the population, research institutions, gross domestic product, and the country-specific modified Hirsch Index and to form corresponding ratios (e.g., population/publication). Also, our approach includes implementation of bioinformatical methods such as heatmapping based on exact geocoordinates, simple chord diagrams, and the central implementation of specific ratios with plain visualization techniques. This protocol allows precise conduction of contemporaneous scientometric analyses based on bioinformatic and meta-analytical techniques, allowing to evaluate and contextualize scientific efforts. Data presentation with the depicted visualization techniques is mandatory for transparent and consistent analyses of research output across different nations and topics. Research performance can then be discussed in a synopsis of all findings.

Published

2019

14. Abstract LB140: CNS penetrant, irreversible inhibitors potently inhibit the family of allosteric oncogenic EGFR mutants expressed in GBM and demonstrate efficacy in patient-derived xenograft models

Author

Chris Roberts, George L. Trainor, Matt Lucas, Luca Arista, Nigel J. Waters, Iwona Wrona, Elizabeth Buck, Tai-An Lin, Darlene Romashko, Deborah Chen, Matthew O'Connor, Alexander Flohr, David R. Raleigh, Giorgio Ottaviani, Raffaele Fiorenza, Theodore Nicolaides, Tomoko Ozawa, and Sara Rasmussen

Subjects

Cancer Research, business.industry, Allosteric regulation, Mutant, Brain tumor, Cancer, medicine.disease, Blood–brain barrier, chemistry.chemical_compound, medicine.anatomical_structure, Oncology, chemistry, medicine, Cancer research, In patient, Penetrant (biochemical), business, EGFR inhibitors

Abstract

Oncogenic EGFR mutations occur in approximately 50% of glioblastomas (GBM) and largely reside in the extracellular domain. Prior attempts to reposition current generation EGFR inhibitors to treat GBM likely failed due to poor brain penetration and an inability to potently target the full spectrum of oncogenic mutations. As EGFR oncogenic mutations are found to be co-expressed in many GBMs, it is important that an inhibitor be broadly active against the entire family of relevant EGFR mutants. Additionally, a successful inhibitor would require a pharmacokinetic (PK) profile that allows for sufficient penetration of the blood brain barrier to elicit robust target engagement of the brain tumor. Using these design principles, we designed a series of highly potent molecules exemplified by BDTX-507. This molecule is an irreversible inhibitor of EGFR with antiproliferative IC50's less than 10 nM against the spectrum of GBM-relevant EGFR mutations. PK/PD studies demonstrated sustained pERK suppression exceeding 24 hours following a single QD dose. Furthermore, when dosed in GBM xenografts, including an intracranial Viii PDX (GBM6), robust tumor regressions and improved survival were observed. Emerging from this series were two advanced compounds, BDTX-700 and BDTX-1535, which also demonstrated potent inhibition of the GBM EGFR spectrum, selectivity v. wild-type EGFR, and an excellent CNS PK profile. BDTX-1535 is currently being evaluated in IND-enabling studies for future clinical evaluation in GBM patients. Citation Format: Matthew O'Connor, Matt Lucas, Darlene Romashko, Sara Rasmussen, Tai-An Lin, Nigel Waters, Raffaele Fiorenza, Iwona Wrona, Deborah Chen, Theodore Nicolaides, David R. Raleigh, Tomoko Ozawa, George Trainor, Luca Arista, Alexander Flohr, Giorgio Ottaviani, Chris Roberts, Elizabeth Buck. CNS penetrant, irreversible inhibitors potently inhibit the family of allosteric oncogenic EGFR mutants expressed in GBM and demonstrate efficacy in patient-derived xenograft models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr LB140.

Published

2021

15. Abstract LB127: Prospective preclinical modeling to estimate clinical pharmacokinetics and doses of BDTX-189, an inhibitor of allosteric ErbB mutations in advanced solid malignancies

Author

Darlene Romashko, Matthew O'Connor, Elizabeth Buck, Alexander V. Mayweg, Nigel J. Waters, Alexander Flohr, and Giorgio Ottaviani

Subjects

Cancer Research, Physiologically based pharmacokinetic modelling, business.industry, Allosteric regulation, Pharmacology, Oncology, Pharmacokinetics, In vivo, ErbB, Pharmacodynamics, Medicine, Distribution (pharmacology), business, ADME

Abstract

Allosteric oncogenic mutations occur outside the canonical ATP-binding site of EGFR and HER2, for which there are no approved single agent therapies that target this family. BDTX-189 is a potent, selective, irreversible inhibitor of the family of nearly 50 allosteric EGFR and HER2 mutant variants. The goal of this translational analysis was to predict the clinical pharmacokinetic (PK) profile of BDTX-189 utilizing in vitro data on the absorption, distribution and metabolism of BDTX-189 as well as in vivo PK data in preclinical species. The prospective PK modeling was conducted prior to initiation of a Phase 1/2 study, to provide predictions of clinical exposures and active dose range. A challenge in the design of irreversible inhibitors with optimal PK properties is the lack of reliable methods to predict their disposition and elimination in human. The PK of covalent drugs is often driven by extrahepatic elimination pathways, and therefore conventional approaches to predict human clearance using human hepatocytes or allometric scaling can lead to poor predictive accuracy. We employed a novel physiologically-based PK (PBPK) modeling strategy that accounted for compound-specific determinants of BDTX-189 metabolism and disposition. PK studies following intravenous (IV) and oral (PO) administration were conducted in preclinical species as well as in vitro studies to understand the ADME properties of BDTX-189. These preclinical data formed the basis of a PBPK modeling approach to predict the likely PK profile of BDTX-189 in human. The mechanistic assumptions used in the final models were able to recapitulate the observed animal PK after both IV and PO administration and thus predictions utilizing similar assumptions for human were considered plausible. Taken together with BDTX-189 exposure-response data in mouse models of anti-tumor efficacy, this enabled the prediction of potentially active dose levels in patients. Preclinical PBPK modeling indicated that BDTX-189 would be readily orally absorbed with a short elimination half-life (approximately 2 hours) while maintaining suppression of ErbB pathway biomarkers over the dosing interval, consistent with the irreversible mechanism of action and the desired ‘hit-and-run' PK/pharmacodynamic (PD) profile. Active dose levels in human were projected to be in the 400 - 800 mg QD range, based on the exposure - tumor growth inhibition relationship in multiple mouse PDX models harboring ErbB allosteric mutations. This study demonstrates that a PBPK modeling approach and an understanding of the determinants of clearance can provide an effective framework for preclinical-to-clinical translation. BDTX-189 is currently under clinical evaluation in the ongoing MasterKey-01 trial (NCT04209465), and clinical PK will be reported in due course. Citation Format: Giorgio Ottaviani, Matthew O'Connor, Alexander Flohr, Darlene Romashko, Alexander Mayweg, Elizabeth Buck, Nigel Waters. Prospective preclinical modeling to estimate clinical pharmacokinetics and doses of BDTX-189, an inhibitor of allosteric ErbB mutations in advanced solid malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr LB127.

Published

2021

16. EXTH-59. POTENT, SELECTIVE, AND BRAIN PENETRANT INHIBITORS OF EXTRACELLULAR DOMAIN EGFR ONCOGENIC MUTANTS EXPRESSED IN GBM DEMONSTRATE EFFICACY IN AN INTRACRANIAL PATIENT DERIVED XENOGRAFT MODEL

Author

Chris Roberts, David R. Raleigh, Giorgio Ottaviani, Tomoko Ozawa, Matthew O'Connor, Raffaele Fiorenza, Elizabeth Buck, Luca Arista, Nigel J. Waters, Theodore Nicolaides, Alexander Flohr, George L. Trainor, Sara Rasmussen, Tai-An Lin, Darlene Romashko, and Matt Lucas

Subjects

Cancer Research, Mutation, Mutant, Preclinical Experimental Therapeutics, medicine.disease_cause, Blood–brain barrier, EGFR Gene Mutation, chemistry.chemical_compound, medicine.anatomical_structure, Oncology, chemistry, Extracellular, medicine, Cancer research, Neurology (clinical), Signal transduction, Penetrant (biochemical), Tumor xenograft

Abstract

EGFR mutations identified in glioblastomas (GBM) occur nearly exclusively at the allosteric extracellular domain (ECD) and constitutively activate oncogenic signaling. Despite wide success in treating tumors expressing EGFR catalytic site mutants, no drug has demonstrated clinical utility against tumors expressing the extracellular domain EGFR mutants. We demonstrate that the family of ECD mutations are not only co-expressed in GBM, but that they all activate the oncogene through a similar disulfide bond-mediated receptor dimerization mechanism. This dimerization occurs independent of ligands and renders the Locked-dimer (LoDi)-EGFR insensitive to agents that target the EGFR kinase domain mutants in NSCLC. The kinase conformation induced by these ECD mutations seen in glioblastomas is both oncogenic and altered from kinase domain mutations, thus necessitating a new approach to targeting. By screening against cells expressing LoDi-EGFR mutants, we have identified the first inhibitors that potently and selectively target LoDi-EGFR mutants versus both canonical active site oncogenic mutants and wild type EGFR. Through an optimization effort, we have identified a novel family of potent and selective LoDi-EGFR mutant inhibitors that effectively penetrate the blood brain barrier (BBB) following oral dosing in preclinical studies. A leading exemplar, BDTX-GBM-001, inhibits the 5 major LoDi-EGFR mutants expressed in GBM with antiproliferative potency of ~10 nM while showing favorable selectivity versus the human kinome. When dosed orally in the intracranial GBM6 patient derived xenograft model at 50, 30, and 15 mg/kg, a dose responsive decrease in tumor growth, as well as a statistically significant increase in survival, were observed. These data support the continued evaluation of rationally designed BBB penetrant inhibitors selectively targeting the common LoDi-EGFR mutants and enable the first chance to fully test the clinical hypothesis of EGFR driver mutants in GBM.

Published

2020

17. Restoration of Historic Concrete Structures with Modern Materials - A Case Study

Author

Andrea Osburg, Alexander Gypser, and Alexander Flohr

Subjects

Polymer modified, Engineering, business.industry, General Engineering, Retrofitting, Modulus, Bearing capacity, business, Civil engineering, Mix design, Application methods

Abstract

Today the requirements for concrete restoration are not only aspects of retrofitting or restoration of bearing capacity but increasingly aspects of preservation of historic structures, such as industrial monuments, civil engineering structures and buildings of the 60s. The Polymer modified self-compacting concrete (PSCC) is a suitable material to be applied in this field, as it not only has excellent mechanical properties (e.g. high bond strength, low Young's modulus) but it is also possible to imitate colours and textures similar to those of the original surfaces. PSCC is therefore an interesting alternative to well established materials, such as PCC, sprayable PCC (SPCC) and shotcrete.Presented in this paper are the results of the further development of PSCC for a particular scenario where due to limited accessibility, the application method and therefore the mix design had to be optimised. Characteristic fresh and hardened concrete properties were investigated and special attention was given to deviation of the fresh concrete with regard to variations in the amounts of source materials.It is shown that although PSCC is a high-performance material, dosage of its source materials, mixing and application of the material itself can be done with simple conventional building site equipment. At the same time a robust fresh concrete as well as excellent surface properties of the hardened concrete can be obtained. Purpose-made mix designs can be developed for various applications with excellent results in performance and appearance.

Published

2015

18. Microstructured Polymers and Their Influences on the Mechanical Properties of PCC

Author

Alexander Flohr, Andrea Osburg, and Luise Göbel

Subjects

chemistry.chemical_classification, Adhesion strength, Materials science, chemistry, Predictive capability, Micromechanics, Polymer, Cementitious, Nanoindentation, Composite material, Durability, Elastic modulus

Abstract

Concretes are modified with polymers in order to improve their durability and adhesive strength. However, polymer-modified cementitious materials exhibit lower elastic moduli and higher viscous and plastic deformations in comparison to unmodified systems. The macroscopic properties are governed by microstructural changes in the binder matrix, which consists of both cementitious and polymer components. Herein, different pure polymer specimens and microstructured polymers were characterized using specific load tests and nanoindentation in order to better understand the microscopic origin of the macroscopic deformation behavior and ultimately the mechanical properties of PCC. The link between the micromechanical and macroscopic properties is established using a continuum micromechanics approach. Multiscale models aiming at the prediction of the deformation behavior of polymer-modified cementitious materials are developed with input parameters that are partially obtained from the experimental investigations. The comparison of the modeling results with the experimentally determined deformations is satisfactorily good, underlining the predictive capability of the modeling approach. The improvement of prediction models is crucial for the application of PCC for construction purposes and will encourage their integration into guidelines.

Published

2018

19. Design and Development of Concretes for Special Rehabilitation Tasks

Author

Alexander Flohr and Andrea Osburg

Subjects

Engineering, Rehabilitation, business.industry, lcsh:TA1-2040, medicine.medical_treatment, medicine, business, lcsh:Engineering (General). Civil engineering (General), Construction engineering

Abstract

The requirements for concrete restoration are not only aspects of retrofitting or restoration of bearing capacity but also aspects of preservation of historic structures, such as industrial monuments or civil engineering structures and buildings of the 1960s [1]. Thereby the facsimile replication of the concrete surface is a particular challenge. For the manufacture of delicate and complex structures with restricted accessibility self-compacting concrete (SCC) is well suited [2]. A modification with polymers normally ensures the durability of repair mortars or concretes (PCC) [3]. The combination of PCC and SCC to the Polymer-modified Self-Compacting Concrete (PSCC) for the restoration of historic concrete constructions is the logical consequence, to combine the advantages of both materials and is therefore an interesting alternative to well established materials and methods. Historic concrete constructions are often manufactured of concretes with very stiff consistencies, the so called tamped concretes. So there is a need to develop materials and methods for the rehabilitation of structures made of tamped concrete. For this reason, first investigations have been performed to the recipe development and optimization of its composition, but also properties, furthermore to the design possibilities and how polymers influence the concrete properties. In Germany between 1920 and 1970 industrial buildings and hydraulic structures have been built with concretes, where the content of Portland cement clinker was nearly complete substituted by latent hydraulic materials. The binders of those concretes contain large quantities of blast furnace slag and calcium sulphate and are called super-sulphated cement (SSC). Because of the high sulphate content, the compatibility of concrete structure with SSC is not given to concretes or mortars with other cements. If there is an adequate range of moisture, harmful new formations of phases will occur in the contact zone between SSC-concrete and the other concrete. In the field of rehabilitation PCC are well established. These are polymer-modified mortars or concretes with Portland cement, which are not suitable for the rehabilitation of structures of SSC-concrete. An alternative is the polymer-modification of SSC-concretes with polymers.

Published

2018

20. Discovery of the first low-shift positive allosteric modulators for the muscarinic M1 receptor

Author

Alexander Flohr, Barbara Mueller, Hervé Schaffhauser, Roman Hutter, Claudia Bohnert, and Mélanie Pellisson

Subjects

0301 basic medicine, Clinical Biochemistry, Allosteric regulation, Drug Evaluation, Preclinical, Pharmaceutical Science, CHO Cells, Pharmacology, Muscarinic Agonists, Biochemistry, 03 medical and health sciences, Structure-Activity Relationship, 0302 clinical medicine, Cricetulus, Allosteric Regulation, Cricetinae, parasitic diseases, Drug Discovery, Muscarinic acetylcholine receptor, Animals, Humans, GABA-A Receptor Agonists, Molecular Biology, G protein-coupled receptor, Chemistry, Organic Chemistry, Receptor, Muscarinic M1, Muscarinic acetylcholine receptor M1, Receptors, GABA-A, 030104 developmental biology, Mutagenesis, Site-Directed, Molecular Medicine, 030217 neurology & neurosurgery

Abstract

Positive modulation of the muscarinic M1-receptor has for a long time attracted scientists and drug developers for the potential treatment of Alzheimer's disease or Schizophrenia. The precognitive potential of M1 activation has however not been clinically demonstrated as a result of side effects associated both with agonists and positive allosteric modulators (PAM's) of the M1-receptor. To avoid excessive activation of the M1-receptor we have designed a new screening format and developed the first low-shift positive allosteric modulators for the M1 receptor. Low-shift PAM's offer the potential of "use-dependent" attenuation of transmitter-signaling while avoiding pseudo-agonistic behavior in vivo as a common limitation of the so far described high-shift PAM's. With these novel M1-PAM's, the M1 receptor is potentially the first GPCR for which both, high- and low shift PAM's have become available.

Published

2017

21. Abstract LB-111: Epidermal growth factor receptor oncogenes expressed in glioblastoma are activated as covalent dimers and exhibit unique pharmacology

Author

Alexander V. Mayweg, Jie Zhang, David M. Epstein, Alexander Flohr, Elizabeth Buck, Matthew O'Connor, Roberto Iacone, and Theodore Nicolaides

Subjects

0301 basic medicine, Cancer Research, biology, Chemistry, Allosteric regulation, Pharmacology, medicine.disease_cause, Small molecule, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, Epidermal growth factor, 030220 oncology & carcinogenesis, medicine, Extracellular, biology.protein, Epidermal growth factor receptor, Carcinogenesis, Receptor, EGFR inhibitors

Abstract

Mutation of either the intracellular catalytic domain or the extracellular domain of the receptor for epidermal growth factor (EGFR) drives oncogenicity. Extracellular domain EGFR mutations are highly expressed in patients with glioblastoma. Despite clinical success with targeting EGFR catalytic site mutants, no drugs have proven effective in glioblastoma patients expressing extracellular EGFR mutations. Herein, we define the molecular mechanism for oncogenic activation of families of extracellular EGFR mutations and reveal how this mechanism renders current generation small molecule ATP-site inhibitors ineffective. We demonstrate that a group of the most commonly expressed extracellular domain EGFR mutants expressed in glioblastomas is activated by disulfide-bond mediated covalent homodimerization, collectively referred to as locked dimerization (LoDi-EGFR oncogenes). Strikingly, current generation small molecules binding to the active kinase conformation potently inhibit catalytic site mutants, but induce covalent dimerization and activate LoDi-EGFR receptors, manifesting in paradoxical acceleration of proliferation. These data demonstrate how the locked-dimer mechanism of EGFR oncogenesis has profound impact on the activity of small molecules acting at the distal catalytic site, providing further evidence for “inside-out” allosteric signaling in EGFR. This provides a mechanistic understanding for the failure of current generation EGFR inhibitors to effectively treat LoDi-EGFR mutants in GBM and sets guidelines for discovery of selective LoDi-EGFR inhibitors. Citation Format: Matthew O'Connor, Theodore Nicolaides, Jie Zhang, Alexander Flohr, Roberto Iacone, Alexander V. Mayweg, David M. Epstein, Elizabeth Buck. Epidermal growth factor receptor oncogenes expressed in glioblastoma are activated as covalent dimers and exhibit unique pharmacology [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr LB-111.

Published

2019

22. Study on the Load-Deformation Behavior of Modified Cement Concrete

Author

Alexander Flohr and Andrea Dimmig-Osburg

Subjects

Cement, Mechanical load, Materials science, Phase (matter), General Engineering, Fracture (geology), Composite material, Deformation (meteorology), Thermoplastic polymer

Abstract

The results of experimental investigations of unreinforced and reinforced modified concrete under monotonically increasing load until fracture, simple short-term load at the limit of capacity and repeated load with continuous loading and release rate should be presented. The modification of the concretes was approached in two ways: the variation of the aggregates and the modification of the binder phase with thermoplastic polymers. Of particular interest were the effects of the modifications on the strength properties and the deformation behavior under short-term load. The observed changes in the hardened concrete properties and the non-linear relation between the elastic and inelastic proportions of deformation indicate that such modifications affect the deformation and fracture behavior of concrete significantly. Therefore they have to be accounted for the analysis of capacity and suitability. In addition to the evaluation of the load-dependent deformation behavior, the established approaches to describe the structural state areas are developed further. Therewith, the transitions between the areas can be determined accurately and the dimension of the areas can be quantified. As a result the changes caused by modifications could be compared more precisely.

Published

2013

23. Morphologic and Functional Effects of Gamma Secretase Inhibition on Splenic Marginal Zone B Cells

Author

Maria Cristina De Vera Mudry, Alexander Flohr, Thomas Singer, Franziska Regenass-Lechner, Lutz Müller, Helmut Jacobsen, Laurence Ozmen, Matthias Festag, and Bernd Altmann

Subjects

Aging, Article Subject, Cognitive Neuroscience, Notch signaling pathway, lcsh:Geriatrics, Biology, lcsh:RC321-571, Flow cytometry, Behavioral Neuroscience, Cellular and Molecular Neuroscience, Immune system, Cyclosporin a, medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Gamma secretase, B cell, medicine.diagnostic_test, Molecular biology, lcsh:RC952-954.6, Haematopoiesis, medicine.anatomical_structure, Neurology, Immunology, Neurology (clinical), Intracellular, Research Article

Abstract

Theγ-secretase complex is a promising target in Alzheimer’s disease because of its role in the amyloidogenic processing ofβ-amyloid precursor protein. This enzyme also catalyzes the cleavage of Notch receptor, resulting in the nuclear translocation of intracellular Notch where it modulates gene transcription. Notch signaling is essential in cell fate decisions during embryogenesis, neuronal differentiation, hematopoiesis, and development of T and B cells, including splenic marginal zone (MZ) B cells. This B cell compartment participates in the early phases of the immune response to blood-borne bacteria and viruses. Chronic treatment with the oralγ-secretase inhibitor RO4929097 resulted in dose-dependent decreased cellularity (atrophy) of the MZ of rats and mice. Significant decreases in relative MZ B-cell numbers of RO4929097-treated animals were confirmed by flow cytometry. Numbers of MZ B cells reverted to normal after a sufficient RO4929097-free recovery period. Functional characterization of the immune response in relation to RO4929097-related MZ B cell decrease was assessed in mice vaccinated with inactivated vesicular stomatitis virus (VSV). Compared with the immunosuppressant cyclosporin A, RO4929097 caused only mild and reversible delayed early neutralizing IgM and IgG responses to VSV. Thus, the functional consequence of MZ B cell decrease on host defense is comparatively mild.

Published

2012

24. 4-Substituted-7-N-alkyl-N-acetyl 2-aminobenzothiazole amides: Drug-like and non-xanthine based A2B adenosine receptor antagonists

Author

Rachid Hamid, Roger David Norcross, Mary Lou Gubler, Ramakanth Sarabu, Fariborz Firooznia, Adrian Wai-Hing Cheung, John A. Brinkman, Nicholas Marcopulos, Lida Qi, Kevin Richard Guertin, Alexander Flohr, Jenny Tan, Gwendolyn Ramsey, Joseph Grimsby, and Yang Wen

Subjects

Bicyclic molecule, Stereochemistry, Organic Chemistry, Clinical Biochemistry, Pharmaceutical Science, Receptor, Adenosine A2B, Xanthine, Biochemistry, Adenosine receptor, Adenosine A2 Receptor Antagonists, Structure-Activity Relationship, chemistry.chemical_compound, Adenosine A1 receptor, chemistry, Drug Discovery, Molecular Medicine, Potency, Benzothiazoles, Receptor, Selectivity, Molecular Biology, G protein-coupled receptor

Abstract

7-N-Acetamide-4-methoxy-2-aminobenzothiazole 4-fluorobenzamide (compound 1) was chosen as a drug-like and non-xanthine based starting point for the discovery of A(2B) receptor antagonists because of its slight selectivity against A(1) and A(2A) receptors and modest A(2B) potency. SAR exploration of compound 1 described herein included modifications to the 7-N-acetamide group, substitution of the 4-methoxy group by halogens as well as replacement of the p-flouro-benzamide side chain. This work culminated in the identification of compound 37 with excellent A(2B) potency, modest selectivity versus A(2A) and A(1) receptors, and good rodent PK properties.

Published

2010

25. Substituted 2-oxo-azepane derivatives are potent, orally active γ-secretase inhibitors

Author

Alexander Flohr, Pascale David-Pierson, Eric A. Kitas, Wolfgang Wostl, Harald Mauser, André Alker, Guido Galley, Dieter P. Reinhardt, Helmut Jacobsen, Laurence Ozmen, Roland Jakob-Roetne, and Christian Czech

Subjects

Models, Molecular, Stereochemistry, Clinical Biochemistry, Pharmaceutical Science, Mice, Transgenic, Hydroxamic Acids, Biochemistry, Mice, Structure-Activity Relationship, chemistry.chemical_compound, Azepane, Drug Discovery, Amyloid precursor protein, Animals, Humans, Protease Inhibitors, Molecular Biology, ADME, chemistry.chemical_classification, Hydroxamic acid, biology, Geminal, Organic Chemistry, Proteolytic enzymes, Azepines, Enzyme, chemistry, biology.protein, Lactam, Molecular Medicine, Amyloid Precursor Protein Secretases

Abstract

A hydroxamic acid screening hit 1 was elaborated to 5,5-dimethyl-2-oxoazepane derivatives exhibiting low nanomolar inhibition of γ-secretase, a key proteolytic enzyme involved in Alzheimer’s disease. Early ADME data showed a high metabolic clearance for the geminal dimethyl analogs which could be overcome by replacement with the bioisosteric geminal difluoro group. Synthesis and structure–activity relationship are discussed and in vivo active compounds are presented.

Published

2008

26. Generation of Aβ38 and Aβ42 Is Independently and Differentially Affected by Familial Alzheimer Disease-associated Presenilin Mutations and γ-Secretase Modulation

Author

Richard M. Page, Alexander Flohr, Karlheinz Baumann, Helmut Jacobsen, Blanca I. Pérez-Revuelta, Laurence Ozmen, Christian Haass, Harald Steiner, Masanori Tomioka, Thomas Luebbers, and Akio Fukumori

Subjects

Genetically modified mouse, Amyloid, Mutant, Mice, Transgenic, Kidney, Transfection, medicine.disease_cause, Biochemistry, Presenilin, Cell Line, Mice, Alzheimer Disease, Presenilin-2, mental disorders, Presenilin-1, medicine, Animals, Humans, Molecular Biology, Mutation, Amyloid beta-Peptides, biology, Wild type, Brain, Cell Biology, medicine.disease, Molecular biology, Peptide Fragments, nervous system diseases, biology.protein, Amyloid Precursor Protein Secretases, Alzheimer's disease, Amyloid precursor protein secretase

Abstract

Alzheimer disease amyloid beta-peptide (Abeta) is generated via proteolytic processing of the beta-amyloid precursor protein by beta- and gamma-secretase. Gamma-secretase can be blocked by selective inhibitors but can also be modulated by a subset of non-steroidal anti-inflammatory drugs, including sulindac sulfide. These drugs selectively reduce the generation of the aggregation-prone 42-amino acid Abeta(42) and concomitantly increase the levels of the rather benign Abeta(38). Here we show that Abeta(42) and Abeta(38) generation occur independently from each other. The amount of Abeta(42) produced by cells expressing 10 different familial Alzheimer disease (FAD)-associated mutations in presenilin (PS) 1, the catalytic subunit of gamma-secretase, appeared to correlate with the respective age of onset in patients. However, Abeta(38) levels did not show a negative correlation with the age of onset. Modulation of gamma-secretase activity by sulindac sulfide reduced Abeta(42) in the case of wild type PS1 and two FAD-associated PS1 mutations (M146L and A285V). The remaining eight PS1 FAD mutants showed either no reduction of Abeta(42) or only rather subtle effects. Strikingly, even the mutations that showed no effect on Abeta(42) levels allowed a robust increase of Abeta(38) upon treatment with sulindac sulfide. Similar observations were made for fenofibrate, a compound known to increase Abeta(42) and to decrease Abeta(38). For mutants that predominantly produce Abeta(42), the ability of fenofibrate to further increase Abeta(42) levels became diminished, whereas Abeta(38) levels were altered to varying extents for all mutants analyzed. Thus, we conclude that Abeta(38) and Abeta(42) production do not depend on each other. Using an independent non-steroidal anti-inflammatory drug derivative, we obtained similar results for PS1 as well as for PS2. These in vitro results were confirmed by in vivo experiments in transgenic mice expressing the PS2 N141I FAD mutant. Our findings therefore have strong implications on the selection of transgenic mouse models used for screening of the Abeta(42)-lowering capacity of gamma-secretase modulators. Furthermore, human patients with certain PS mutations may not respond to gamma-secretase modulators.

Published

2008

27. Targeted γ-Secretase Inhibition To Control the Notch Pathway in Renal Diseases

Author

Alexander Flohr, Lucienne Juillerat-Jeanneret, Isabelle Walter, Jean-Christophe Wyss, Rajesh Kumar, Manfred Schneider, Johannes Aebi, and Dela Golshayan

Subjects

Male, Notch signaling pathway, Pharmacology, Cleavage (embryo), Kidney, Renal Agents, Mice, In vivo, Cell Line, Tumor, Drug Discovery, medicine, Animals, Prodrugs, Mice, Inbred BALB C, biology, Receptors, Notch, Chemistry, Acute kidney injury, Prodrug, Acute Kidney Injury, medicine.disease, In vitro, Mice, Inbred C57BL, medicine.anatomical_structure, Liver, biology.protein, Molecular Medicine, Kidney Diseases, Amyloid Precursor Protein Secretases, Amyloid precursor protein secretase, gamma-Glutamylcyclotransferase

Abstract

Notch is a membrane inserted protein activated by the membrane-inserted γ-secretase proteolytic complex. The Notch pathway is a potential therapeutic target for the treatment of renal diseases but also controls the function of other cells, requiring cell-targeting of Notch antagonists. Toward selective targeting, we have developed the γ-secretase inhibitor-based prodrugs 13a and 15a as substrates for γ-glutamyltranspeptidase (γ-GT) and/or γ-glutamylcyclotransferase (γ-GCT) as well as aminopeptidase A (APA), which are overexpressed in renal diseases, and have evaluated them in experimental in vitro and in vivo models. In nondiseased mice, the cleavage product from Ac-γ-Glu-γ-secretase inhibitor prodrug 13a (γ-GT-targeting and γ-GCT-targeting) but not from Ac-α-Glu-γ-secretase inhibitor prodrug 15a (APA-targeting) accumulated in kidneys when compared to blood and liver. Potential nephroprotective effects of the γ-secretase inhibitor targeted prodrugs were investigated in vivo in a mouse model of acute kidney injury, demonstrating that the expression of Notch1 and cleaved Notch1 could be selectively down-regulated upon treatment with the Ac-γ-Glu-γ-secretase-inhibitor 13a.

Published

2015

28. Scaffold hopping

Author

Hans-Joachim Böhm, Alexander Flohr, and Martin Stahl

Subjects

Drug Discovery, Molecular Medicine

Abstract

The aim of scaffold hopping is to discover structurally novel compounds starting from known active compounds by modifying the central core structure of the molecule. Scaffold hopping is a central task of modern medicinal chemistry requiring a multitude of techniques, which are discussed in this article. Their application has led to several molecules with chemically completely different core structures, and yet binding to the same receptor. Computational approaches for scaffold hopping highlight the challenges of the field that are still unsolved.

Published

2014

29. Improved synthesis of (S)-7-amino-5H,7H-dibenzo[b,d]azepin-6-one, a building block for γ-secretase inhibitors

Author

Fritz Bliss, Fabienne Hoffmann-Emery, Alexander Flohr, Reinhard Reents, and Roland Jakob-Roetne

Subjects

Carbamate, Chemistry, Stereochemistry, medicine.medical_treatment, Organic Chemistry, Block (permutation group theory), Cleavage (embryo), Biochemistry, law.invention, chemistry.chemical_compound, law, Drug Discovery, medicine, Lactam, Epimer, γ secretase, Crystallization, Protecting group

Abstract

An improved synthesis of (S)-7-amino-5H,7H-dibenzo[b,d]azepin-6-one (1), involving a selective crystallization of epimeric menthylcarbamates for the resolution step followed by simultaneous cleavage of the carbamate and the lactam protecting group is described. Epimerization conditions of the undesired epimer have also been determined.

Published

2009

30. An Antibody-Catalyzed Allylic Sulfoxide−Sulfenate Rearrangement

Author

Donald Hilvert, Zhaohui Sunny Zhou, and and Alexander Flohr

Subjects

Allylic rearrangement, Aqueous solution, biology, Stereochemistry, Organic Chemistry, Substrate (chemistry), Sulfoxide, Alcohol, Catalysis, chemistry.chemical_compound, chemistry, biology.protein, Bovine serum albumin, Chirality (chemistry)

Abstract

Antibodies SZ-cis-39C11 and SZ-trans-28F8, which were elicited in response to N-aryl-3-methoxyphenyl proline derivatives, catalyze the [2,3]-sigmatropic rearrangement of allylic sulfoxides to sulfenates. Reduction of the sulfenates with dithiothreitol in situ yields allylic alcohols as the final product. The antibodies achieve rate accelerations in the range 10(2)-10(3) over background and exhibit distinctive hapten-dependent substrate specificity and enantio- and diastereoselectivity. Of particular note is the effective chirality transfer from the sulfoxide center to the product alcohol in the SZ-cis-39C11-catalyzed conversion of (Z)-2-(4-methoxyphenyl)-but-2-en-1-yl 4-nitrophenyl sulfoxide. These properties can be contrasted with those of bovine serum albumin (BSA) which accelerates the same reactions to a comparable extent but does not discriminate between substrate isomers. Partitioning of substrate from aqueous solution into the less polar environment of the protein pocket can account for much of the observed rate enhancement, whereas specific conformational constraints programmed by the haptens must orient the flexible substrate within the induced antibody-combining sites so as to favor certain reaction pathways over others. These studies thus expand the scope of antibody catalysis to an important new class of pericyclic reactions and illustrate how medium effects can be exploited together with conformational constraint to control reactivity and selectivity.

Published

1999

31. Stille coupling versus cine substitution. Electronic effects also influence coupling sterically hindered stannanes

Author

Alexander Flohr

Subjects

Steric effects, Ligand, Stereochemistry, Organic Chemistry, chemistry.chemical_element, Biochemistry, Stannane, Coupling reaction, Catalysis, Stille reaction, chemistry.chemical_compound, chemistry, Computational chemistry, Drug Discovery, Electronic effect, Palladium

Abstract

Very low ligand to palladium ratios, especially weak ligands and iodides as electropholes allow Stille couplings to very hindered stannanes, not possible under common conditions. In contrast, the usage of triflates and elevated temperatures yields exclusively the product of a Cine substitution. In this was, by the choice of the reaction conditions, two alternative stereoisomers can be obtained from the same stannane.

Published

1998

32. P1‐246: N‐heteroaryl‐piperidinyl‐4‐amines as selective GAMMA secretase modulators for the potential treatment of Alzheimer's disease

Author

Karlheinz Baumann, Pascale David-Pierson, Helmut Jacobsen, Anja Limberg, Erwin Goetschi, Synese Jolidon, Henner Knust, Luke Green, Andrew Thomas, Thomas Luebbers, and Alexander Flohr

Subjects

Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Chemistry, Health Policy, Neurology (clinical), Disease, Geriatrics and Gerontology, Pharmacology, Gamma secretase

Published

2012

33. The dynamics of Aβ distribution after γ-secretase inhibitor treatment, as determined by experimental and modelling approaches in a wild type rat

Author

Helmut Jacobsen, Laurence Ozmen, Roland Jakob-Roetne, Hans Peter Grimm, Alexander Flohr, Leon M. Tai, and Antonello Caruso

Subjects

Pharmacology, chemistry.chemical_classification, Male, Amyloid beta-Peptides, biology, Amyloid beta, Wild type, Brain, Peptide, Models, Biological, In vitro, Rats, Enzyme, Treatment Outcome, Biochemistry, chemistry, In vivo, biology.protein, Distribution (pharmacology), Animals, Protease Inhibitors, Amyloid Precursor Protein Secretases, Rats, Wistar, Amyloid precursor protein secretase

Abstract

Inhibition of the enzyme(s) that produce the Amyloid beta (Aβ) peptide, namely BACE and γ-secretase, is considered an attractive target for Alzheimer’s disease therapy. However, the optimal pharmacokinetic–pharmacodynamic modelling method to describe the changes in Aβ levels after drug treatment is unclear. In this study, turnover models were employed to describe Aβ levels following treatment with the γ-secretase inhibitor RO5036450, in the wild type rat. Initially, Aβ level changes in the brain, cerebral spinal fluid (CSF) and plasma were modeled as separate biological compartments, which allowed the estimation of a compound IC 50 and Aβ turnover. While the data were well described, the model did not take into consideration that the CSF pool of Aβ most likely originates from the brain via the CSF drainage pathway. Therefore, a separate model was carried out, with the assumption that CSF Aβ levels originated from the brain. The optimal model that described the data involved two brain Aβ 40 sub-compartments, one with a rapid turnover, from which CSF Aβ 40 is derived, and a second quasi-static pool of ~20%. Importantly, the estimated in vivo brain IC 50 was in a good range of the in vitro IC 50 (ratio, 1.4). In conclusion, the PK/PD models presented here are well suited for describing the temporal changes in Aβ levels that occur after treatment with an Aβ lowering drug, and identifying physiological parameters.

Published

2011

34. Aminothiazoles as γ-secretase modulators

Author

Pascale David-Pierson, Alexander Flohr, Karlheinz Baumann, Helmut Jacobsen, Laurence Ozmen, Thomas Lübbers, and Synese Jolidon

Subjects

Amyloid beta, Clinical Biochemistry, Pharmaceutical Science, Peptide, Mice, Transgenic, Biochemistry, chemistry.chemical_compound, Mice, Structure-Activity Relationship, Aminothiazole, In vivo, Drug Discovery, Structure–activity relationship, Animals, Humans, Molecular Biology, chemistry.chemical_classification, biology, Chemistry, Organic Chemistry, P3 peptide, In vitro, Thiazoles, biology.protein, Molecular Medicine, Amyloid Precursor Protein Secretases, Amyloid precursor protein secretase

Abstract

We herein report the discovery of a new γ-secretase modulator class with an aminothiazole core starting from a HTS hit (3). Synthesis and SAR of this series are discussed. These novel compounds demonstrate moderate to good in vitro potency in inhibiting amyloid beta (Aβ) peptide production. Overall γ-secretase is not inhibited but the formation of the aggregating, toxic Aβ42 peptide is shifted to smaller non-aggregating Aβ peptides. Compound 15 reduced brain Aβ42 in vivo in APPSwe transgenic mice at 30 mg/kg p.o.

Published

2011

35. ChemInform Abstract: Stille Coupling versus Cine Substitution. Electronic Effects also Influence Coupling Sterically Hindered Stannanes

Author

Alexander Flohr

Subjects

Coupling, Steric effects, chemistry.chemical_compound, chemistry, Computational chemistry, Ligand, Substitution (logic), Electronic effect, chemistry.chemical_element, General Medicine, Stannane, Palladium, Stille reaction

Abstract

Very low ligand to palladium ratios, especially weak ligands and iodides as electropholes allow Stille couplings to very hindered stannanes, not possible under common conditions. In contrast, the usage of triflates and elevated temperatures yields exclusively the product of a Cine substitution. In this was, by the choice of the reaction conditions, two alternative stereoisomers can be obtained from the same stannane.

Published

2010

36. Preclinical Profile of a Potent γ-Secretase Inhibitor Targeting Notch Signaling with In vivo Efficacy and Pharmacodynamic Properties

Author

Helmut Jacobsen, James Cai, Boylan John Frederick, Wei He, Michael Linn, Leopoldo Luistro, Holly Hilton, Melissa Smith, Maria Vilenchik, Roland Jakob-Røtne, David C. Heimbrook, Kelli Glenn, John D. Roberts, Packman Kathryn E, Daisy Carvajal, Windy Berkofsky-Fessler, and Alexander Flohr

Subjects

Cancer Research, Cell signaling, Lung Neoplasms, Transcription, Genetic, Angiogenesis, Notch signaling pathway, Pharmacology, Biology, Article, Mice, In vivo, Carcinoma, Non-Small-Cell Lung, Cell Line, Tumor, Neoplasms, Animals, Humans, Protease Inhibitors, RNA, Messenger, HES1, Receptor, Receptors, Notch, Biological activity, Benzazepines, Xenograft Model Antitumor Assays, Rats, Oncology, Signal transduction, Amyloid Precursor Protein Secretases, Hair Follicle, Signal Transduction

Abstract

Notch signaling is an area of great interest in oncology. RO4929097 is a potent and selective inhibitor of γ-secretase, producing inhibitory activity of Notch signaling in tumor cells. The RO4929097 IC50 in cell-free and cellular assays is in the low nanomolar range with >100-fold selectivity with respect to 75 other proteins of various types (receptors, ion channels, and enzymes). RO4929097 inhibits Notch processing in tumor cells as measured by the reduction of intracellular Notch expression by Western blot. This leads to reduced expression of the Notch transcriptional target gene Hes1. RO4929097 does not block tumor cell proliferation or induce apoptosis but instead produces a less transformed, flattened, slower-growing phenotype. RO4929097 is active following oral dosing. Antitumor activity was shown in 7 of 8 xenografts tested on an intermittent or daily schedule in the absence of body weight loss or Notch-related toxicities. Importantly, efficacy is maintained after dosing is terminated. Angiogenesis reverse transcription-PCR array data show reduced expression of several key angiogenic genes. In addition, comparative microarray analysis suggests tumor cell differentiation as an additional mode of action. These preclinical results support evaluation of RO4929097 in clinical studies using an intermittent dosing schedule. A multicenter phase I dose escalation study in oncology is under way. [Cancer Res 2009;69(19):7672–80]

Published

2009

37. LiClO4 and Organic Solvents - a powerful combination. 15

Author

Herbert Waldmann and Alexander Flohr

Subjects

chemistry.chemical_compound, Chemistry, Organic chemistry, Lithium perchlorate, Catalysis, Diels–Alder reaction

Published

1995

38. Poster #211 THE BEHAVIORAL PROFILE OF TP-10 IN RODENTS AND NON-HUMAN PRIMATES SUPPORTS PDE10A INHIBITION AS A NOVEL TREATMENT APPROACH FOR SCHIZOPHRENIA

Author

Matthias Koerner, Elodie Meyer, Ruben Alvarez Sanchez, Daniela Alberati, Bruno Pouzet, P. Malherbe, Joseph G. Wettstein, Daniel Schlatter, Hervé Schaffhauser, Eric Prinssen, Theresa M. Ballard, Tanya L. Wallace, Alexander Flohr, and Rosa Maria Rodriguez Sarmiento

Subjects

Psychiatry and Mental health, Schizophrenia (object-oriented programming), Non-human, PDE10A, Psychology, Neuroscience, Biological Psychiatry, Clinical psychology

Published

2012

39. Poster #126 IN VITRO AND IN VIVO CHARACTERIZATION OF A NEW SELECTIVE PHOSPHODIESTERASE 10 RADIOLIGAND

Author

Celine Sutter, Joseph G. Wettstein, Michael Honer, Luca Gobbi, Edilio Borroni, Hervé Schaffhauser, Patricia Glaentzlin, Thomas Hartung, Jens Uwe Peters, Agnès Nilly, and Alexander Flohr

Subjects

Psychiatry and Mental health, Biochemistry, In vivo, Chemistry, Radioligand, Phosphodiesterase, Biological Psychiatry, In vitro

Published

2012

40. alpha-Functionalized phosphonylphosphinates: synthesis and evaluation as transcarbamoylase inhibitors

Author

Donald Hilvert, and Andreas Aemissegger, and Alexander Flohr

Subjects

chemistry.chemical_classification, biology, Chemistry, Stereochemistry, Active site, Phosphonate, Phosphinic Acids, Amino acid, chemistry.chemical_compound, Structure-Activity Relationship, Protein structure, Enzyme, Nucleophile, Tetrahedral carbonyl addition compound, Drug Discovery, biology.protein, Enterococcus faecalis, Molecular Medicine, Amine gas treating, Colorimetry, Enzyme Inhibitors, Ornithine Carbamoyltransferase

Abstract

Diverse alpha-methyl-substituted phosphonylphosphinates (P-C-P-C-X) are accessible from a protected, pentafluorophenylsulfonated phosphonylphosphinate via nucleophilic displacement. The utility of this route is demonstrated with several nitrogen nucleophiles. The resulting amine and amino acid phosphonylphosphinate derivatives were evaluated as inhibitors of Streptococcus faecalis ornithine transcarbamoylase (OTC). Compared with the structurally related phosphonoacetyl-L-ornithine (L-PALO), a known inhibitor of OTCs from various sources, the phosphonylphosphinates are surprisingly poor inhibitors, binding several orders of magnitude less tightly to the enzyme. These results suggest that the tetrahedral intermediate formed in the normal transcarbamoylase reaction is poorly mimicked by a tetrahedral and anionic phosphonate, either because of directly unfavorable interactions with a hydrogen-bond acceptor within the active site or because transition-state analogues are unable to induce the protein conformation changes that normally accompany reaction.

Published

1999

41. Targeted γ-SecretaseInhibition To Controlthe Notch Pathway in Renal Diseases.

Author

Lucienne Juillerat-Jeanneret, Alexander Flohr, Manfred Schneider, Isabelle Walter, Jean-Christophe Wyss, Rajesh Kumar, Dela Golshayan, and Johannes D. Aebi

Subjects

*TARGETED drug delivery, *SECRETASE inhibitors, *KIDNEY disease treatments, *NOTCH genes, *KIDNEY diseases, *GENE expression, *GENETICS

Abstract

Notchis a membrane inserted protein activated by the membrane-insertedγ-secretase proteolytic complex. The Notch pathway is a potentialtherapeutic target for the treatment of renal diseases but also controlsthe function of other cells, requiring cell-targeting of Notch antagonists.Toward selective targeting, we have developed the γ-secretaseinhibitor-based prodrugs 13aand 15aassubstrates for γ-glutamyltranspeptidase (γ-GT) and/orγ-glutamylcyclotransferase (γ-GCT) as well as aminopeptidaseA (APA), which are overexpressed in renal diseases, and have evaluatedthem in experimental in vitro and in vivo models. In nondiseased mice,the cleavage product from Ac-γ-Glu-γ-secretase inhibitorprodrug 13a(γ-GT-targeting and γ-GCT-targeting)but not from Ac-α-Glu-γ-secretase inhibitor prodrug 15a(APA-targeting) accumulated in kidneys when compared toblood and liver. Potential nephroprotective effects of the γ-secretaseinhibitor targeted prodrugs were investigated in vivo in a mouse modelof acute kidney injury, demonstrating that the expression of Notch1and cleaved Notch1 could be selectively down-regulated upon treatmentwith the Ac-γ-Glu-γ-secretase-inhibitor 13a. [ABSTRACT FROM AUTHOR]

Published

2015

42. Viel Information über vielfach koordiniertes Iod: The Organic Chemistry of Polycoordinated Iodine. Von A. Varvoglis. VCH, Weinheim, 1992. XII, 414 S., 4 Abb., 13 Tab., geb. 196,-DM. ISBN 3-527-89538-8

Author

Alexander Flohr and Herbert Waldmann

Subjects

Chemistry, Organic chemistry, chemistry.chemical_element, Iodine

Published

1994

43. Sex differences in cardiovascular research

Author

Felix Mahfoud, Andreas Keller, Michael Boehm, Tobias Fehlmann, Lucas Lauder, Rasha Al-Lamee, Markus Dillmann, Dominic Millenaar, Christian Ukena, Alexander Flohr, and R Mehran

Subjects

Gerontology, business.industry, Cardiovascular research, Medicine, Cardiology and Cardiovascular Medicine, business

Abstract

Background Women are underrepresented in cardiovascular publications. We sought to investigate sex-specific differences in cardiovascular research over the last decade. Methods and results All 387,463 cardiovascular publications between 2010–2019 were retrieved from Web-of-Science and analyzed regarding the authors' sex, the average impact factor (IF), the number of citations, co-authors per article, and international collaborations. The number of cardiovascular research articles increased between 2010–2019 from 19,960 to 29,604 articles per year. The number of articles written by female first authors increased by 48.3% (6434 articles in 2010 and 11,343 articles in 2019) and by 35.0% for male first authors (13,526 articles in 2010 and 18,261 articles in 2019). The last/senior author was more likely to be female in articles with female first authors compared with male first authors (28.2% vs. 14.1%; odds ratio 2.48, 95% confidence interval 2.43–2.53, p15 co-authors (3,623 articles by female and 8,941 by male first authors; ratio female to male 0.41). Scientific advancement as the ratio between female to male first authorships was highest in publications from Latin America (ratio 0.92) and lowest in Asia (ratio 0.40). Female authorship articles reached the highest IF in North America (average IF 3.7), the lowest Africa (average IF 1.8). Conclusions Publications in cardiovascular research have increased over the last decade, particularly by female authors. Female researchers are cited less often compared with their male peers and publish with fewer co-authors. The IF remains lower for articles by female researchers. Efforts to further increase women-led research activities are needed Funding Acknowledgement Type of funding sources: Public grant(s) – National budget only. Main funding source(s): German Cardiac SocietyGerman Research Foundation (DFG)