Your search keyword '"Depta L"' showing total 20 results

1. INFLUENCE OP MICROINJECTION OF 6-HYDROXYDOPA /6 OH-DOPA/ INTO THE HYPOTHALAMUS AND HIPPOCAMPUS ON THE BEHAVIOUR AND THE LEVEL OP BIOGENIC AMINES IN THE RAT BRAIN

Author

Plech, A., primary, Wieloch-Depta, L., additional, Herman, Z.S., additional, Kmieciak-Kolada, K., additional, and Slomińska-Zurek, J., additional

Published

1978

2. 1554 - INFLUENCE OP MICROINJECTION OF 6-HYDROXYDOPA /6 OH-DOPA/ INTO THE HYPOTHALAMUS AND HIPPOCAMPUS ON THE BEHAVIOUR AND THE LEVEL OP BIOGENIC AMINES IN THE RAT BRAIN

Author

Plech, A., Wieloch-Depta, L., Herman, Z.S., Kmieciak-Kolada, K., and Slomińska-Zurek, J.

Published

1978

3. Endogenous and fluorescent sterols reveal the molecular basis for ligand selectivity of human sterol transporters.

Author

Depta L, Bryce-Rogers HP, Dekker NJ, Bønke AW, Camporese N, Qian M, Xu Y, Covey DF, and Laraia L

Abstract

Sterol transport proteins (STPs) play a pivotal role in cholesterol homeostasis and therefore are essential for healthy human physiology. Despite recent advances in dissecting functions of STPs in the human cell, there is still a significant knowledge gap regarding their specific biological functions and a lack of suitable selective probes for their study. Here, we profile fluorescent steroid-based probes across ten STPs, uncovering substantial differences in their selectivity, aiding the retrospective and prospective interpretation of biological results generated with those probes. These results guided the establishment of an STP screening panel combining diverse biophysical assays, enabling the evaluation of 41 steroid-based natural products and derivatives. Combining this with a thorough structural analysis revealed the molecular basis for STP specific selectivity profiles, leading to the uncovering of several new potent and selective Aster-B inhibitors, and supporting the role of this protein in steroidogenesis.

Published

2024

4. Orpinolide disrupts a leukemic dependency on cholesterol transport by inhibiting OSBP.

Author

Cigler M, Imrichova H, Frommelt F, Caramelle L, Depta L, Rukavina A, Kagiou C, Hannich JT, Mayor-Ruiz C, Superti-Furga G, Sievers S, Forrester A, Laraia L, Waldmann H, and Winter GE

Abstract

Metabolic alterations in cancer precipitate in associated dependencies that can be therapeutically exploited. To meet this goal, natural product-inspired small molecules can provide a resource of invaluable chemotypes. Here, we identify orpinolide, a synthetic withanolide analog with pronounced antileukemic properties, via orthogonal chemical screening. Through multiomics profiling and genome-scale CRISPR-Cas9 screens, we identify that orpinolide disrupts Golgi homeostasis via a mechanism that requires active phosphatidylinositol 4-phosphate signaling at the endoplasmic reticulum-Golgi membrane interface. Thermal proteome profiling and genetic validation studies reveal the oxysterol-binding protein OSBP as the direct and phenotypically relevant target of orpinolide. Collectively, these data reaffirm sterol transport as a therapeutically actionable dependency in leukemia and motivate ensuing translational investigation via the probe-like compound orpinolide., (© 2024. The Author(s).)

Published

2024

5. Inhibition of OSBP blocks retrograde trafficking by inducing partial Golgi degradation.

Author

He N, Depta L, Rossetti C, Caramelle L, Cigler M, Bryce-Rogers HP, Michon M, Rafn Dan O, Hoock J, Barbier J, Gillet D, Forrester A, Winter GE, and Laraia L

Abstract

Sterol-binding proteins are important regulators of lipid homeostasis and membrane integrity; however, the discovery of selective modulators can be challenging due to structural similarities in the sterol-binding domains. We report the discovery of potent and selective inhibitors of oxysterol-binding protein (OSBP), which we term oxybipins. Sterol-containing chemical chimeras aimed at identifying new sterol-binding proteins by targeted degradation, led to a significant reduction in levels of Golgi-associated proteins. The degradation occurred in lysosomes, concomitant with changes in protein glycosylation, indicating that the degradation of Golgi proteins was a downstream effect. By establishing a sterol transport protein biophysical assay panel, we discovered that the oxybipins potently inhibited OSBP, resulting in blockage of retrograde trafficking and attenuating Shiga toxin toxicity. As the oxybipins do not target other sterol transporters and only stabilized OSBP in intact cells, we advocate their use as tools to study OSBP function and therapeutic relevance., (© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2024

6. Fluorescent probes and degraders of the sterol transport protein Aster-A.

Author

He N, Depta L, Sievers S, and Laraia L

Subjects

Sterols, Proteolysis, Fluorescent Dyes pharmacology, Carrier Proteins

Abstract

Our understanding of sterol transport proteins (STPs) has increased exponentially in the last decades with advances in the cellular and structural biology of these important proteins. However, small molecule probes have only recently been developed for a few selected STPs. Here we describe the synthesis and evaluation of potential proteolysis-targeting chimeras (PROTACs) based on inhibitors of the STP Aster-A. Based on the reported Aster-A inhibitor autogramin-2, ten PROTACs were synthesized. Pomalidomide-based PROTACs functioned as fluorescent probes due to the intrinsic fluorescent properties of the aminophthalimide core, which in some cases was significantly enhanced upon Aster-A binding. Most PROTACs maintained excellent binary affinity to Aster-A, and one compound, NGF3, showed promising Aster-A degradation in cells. The tools developed here lay the foundation for optimizing Aster-A fluorescent probes and degraders and studying its activity and function in vitro and in cells., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

7. Identification of non-conventional small molecule degraders and stabilizers of squalene synthase.

Author

Hoock JGF, Rossetti C, Bilgin M, Depta L, Enemark-Rasmussen K, Christianson JC, and Laraia L

Abstract

Squalene synthase (SQS) is an essential enzyme in the mevalonate pathway, which controls cholesterol biosynthesis and homeostasis. Although catalytic inhibitors of SQS have been developed, none have been approved for therapeutic use so far. Herein we sought to develop SQS degraders using targeted protein degradation (TPD) to lower overall cellular cholesterol content. We found that KY02111, a small molecule ligand of SQS, selectively causes SQS to degrade in a proteasome-dependent manner. Unexpectedly, compounds based on the same scaffold linked to E3 ligase recruiting ligands led to SQS stabilization. Proteomic analysis found KY02111 to reduce only the levels of SQS, while lipidomic analysis determined that KY02111-induced degradation lowered cellular cholesteryl ester content. Stabilizers shielded SQS from its natural turnover without recruiting their matching E3 ligase or affecting enzymatic target activity. Our work shows that degradation of SQS is possible despite a challenging biological setting and provides the first chemical tools to degrade and stabilize SQS., Competing Interests: The authors have no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

8. Identification of Biologically Diverse Tetrahydronaphthalen-2-ols through the Synthesis and Phenotypic Profiling of Chemically Diverse, Estradiol-Inspired Compounds.

Author

Whitmarsh-Everiss T, Wang Z, Hauberg Hansen C, Depta L, Sassetti E, Rafn Dan O, Pahl A, Sievers S, and Laraia L

Subjects

Estradiol chemistry, Biological Products pharmacology, Biological Products chemistry, Naphthalenes chemical synthesis

Abstract

Combining natural product fragments to design new scaffolds with unprecedented bioactivity is a powerful strategy for the discovery of tool compounds and potential therapeutics. However, the choice of fragments to couple and the biological screens to employ remain open questions in the field. By choosing a primary fragment containing the A/B ring system of estradiol and fusing it to nine different secondary fragments, we were able to identify compounds that modulated four different phenotypes: inhibition of autophagy and osteoblast differentiation, as well as potassium channel and tubulin modulation. The latter two were uncovered by using unbiased morphological profiling with a cell-painting assay. The number of hits and variety in bioactivity discovered validates the use of recombining natural product fragments coupled to phenotypic screening for the rapid identification of biologically diverse compounds., (© 2023 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2023

9. Structure, function and small molecule modulation of intracellular sterol transport proteins.

Author

Depta L, Whitmarsh-Everiss T, and Laraia L

Subjects

Biological Transport, Cell Membrane metabolism, Organelles metabolism, Carrier Proteins metabolism, Sterols chemistry, Sterols pharmacology

Abstract

Intracellular sterol transport proteins (STPs) are crucial for maintaining cellular lipid homeostasis by regulating local sterol pools. Despite structural similarities in their sterol binding domains, STPs have different substrate specificities, intracellular localisation and biological functions. In this review, we highlight recent advances in the determination of STP structures and how this regulates their lipid specificities. Furthermore, we cover the important discoveries relating to the intracellular localisation of STPs, and the organelles between which lipid transport is carried out, giving rise to specific functions in health and disease. Finally, serendipitous and targeted efforts to identify small molecule modulators of STPs, as well as their ability to act as tool compounds and potential therapeutics, will be discussed., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

10. Design and synthesis of Nrf2-derived hydrocarbon stapled peptides for the disruption of protein-DNA-interactions.

Author

Wiedemann B, Kamps D, Depta L, Weisner J, Cvetreznik J, Tomassi S, Gentz S, Hoffmann JE, Müller MP, Koch O, Dehmelt L, and Rauh D

Subjects

DNA, Humans, Hydrocarbons chemistry, NF-E2-Related Factor 2 genetics, Peptides chemistry

Abstract

Misregulation and mutations of the transcription factor Nrf2 are involved in the development of a variety of human diseases. In this study, we employed the technology of stapled peptides to address a protein-DNA-complex and designed a set of Nrf2-based derivatives. Varying the length and position of the hydrocarbon staple, we chose the best peptide for further evaluation in both fixed and living cells. Peptide 4 revealed significant enrichment within the nucleus compared to its linear counterpart 5, indicating potent binding to DNA. Our studies suggest that these molecules offer an interesting strategy to target activated Nrf2 in cancer cells., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

11. Cellular model system to dissect the isoform-selectivity of Akt inhibitors.

Author

Quambusch L, Depta L, Landel I, Lubeck M, Kirschner T, Nabert J, Uhlenbrock N, Weisner J, Kostka M, Levy LM, Schultz-Fademrecht C, Glanemann F, Althoff K, Müller MP, Siveke JT, and Rauh D

Subjects

Adaptor Proteins, Signal Transducing genetics, Adaptor Proteins, Signal Transducing metabolism, Allosteric Regulation, Allosteric Site, Animals, Antineoplastic Agents chemical synthesis, Cell Line, Drug Design, Gene Expression, HEK293 Cells, Humans, Inhibitory Concentration 50, Lymphocytes cytology, Lymphocytes enzymology, Mice, Mitogen-Activated Protein Kinase 1 genetics, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 genetics, Mitogen-Activated Protein Kinase 3 metabolism, Protein Kinase Inhibitors chemical synthesis, Proto-Oncogene Proteins c-akt chemistry, Proto-Oncogene Proteins c-akt genetics, Proto-Oncogene Proteins c-akt metabolism, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sf9 Cells, Small Molecule Libraries chemical synthesis, Spodoptera, Structure-Activity Relationship, Antineoplastic Agents pharmacology, Lymphocytes drug effects, Protein Kinase Inhibitors pharmacology, Proto-Oncogene Proteins c-akt antagonists & inhibitors, Small Molecule Libraries pharmacology

Abstract

The protein kinase Akt plays a pivotal role in cellular processes. However, its isoforms' distinct functions have not been resolved to date, mainly due to the lack of suitable biochemical and cellular tools. Against this background, we present the development of an isoform-dependent Ba/F3 model system to translate biochemical results on isoform specificity to the cellular level. Our cellular model system complemented by protein X-ray crystallography and structure-based ligand design results in covalent-allosteric Akt inhibitors with unique selectivity profiles. In a first proof-of-concept, the developed molecules allow studies on isoform-selective effects of Akt inhibition in cancer cells. Thus, this study will pave the way to resolve isoform-selective roles in health and disease and foster the development of next-generation therapeutics with superior on-target properties., (© 2021. The Author(s).)

Published

2021

12. Spotlight on AKT: Current Therapeutic Challenges.

Author

Landel I, Quambusch L, Depta L, and Rauh D

Abstract

The protein kinase B (Akt) exemplifies an important switch of cell death and survival within the PI3K/Akt signaling pathway, which renders Akt a valuable target in diseases such as cancer. Herein, we give a short overview of clinical applications involving Akt, outline promising and innovative approaches to investigate the role of this kinase in diseases, and highlight the current challenges that require thorough investigation to set the groundwork for successful therapeutic strategies., Competing Interests: The authors declare no competing financial interest., (Copyright © 2020 American Chemical Society.)

Published

2020

13. Covalent-Allosteric Inhibitors to Achieve Akt Isoform-Selectivity.

Author

Quambusch L, Landel I, Depta L, Weisner J, Uhlenbrock N, Müller MP, Glanemann F, Althoff K, Siveke JT, and Rauh D

Subjects

Humans, Structure-Activity Relationship, Allosteric Regulation physiology, Allosteric Site physiology, Protein Isoforms chemistry, Proto-Oncogene Proteins c-akt metabolism

Abstract

Isoforms of protein kinase Akt are involved in essential processes including cell proliferation, survival, and metabolism. However, their individual roles in health and disease have not been thoroughly evaluated. Thus, there is an urgent need for perturbation studies, preferably mediated by highly selective bioactive small molecules. Herein, we present a structure-guided approach for the design of structurally diverse and pharmacologically beneficial covalent-allosteric modifiers, which enabled an investigation of the isoform-specific preferences and the important residues within the allosteric site of the different isoforms. The biochemical, cellular, and structural evaluations revealed interactions responsible for the selective binding profiles. The isoform-selective covalent-allosteric Akt inhibitors that emerged from this approach showed a conclusive structure-activity relationship and broke ground in the development of selective probes to delineate the isoform-specific functions of Akt kinases., (© 2019 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2019

14. Preclinical Efficacy of Covalent-Allosteric AKT Inhibitor Borussertib in Combination with Trametinib in KRAS -Mutant Pancreatic and Colorectal Cancer.

Author

Weisner J, Landel I, Reintjes C, Uhlenbrock N, Trajkovic-Arsic M, Dienstbier N, Hardick J, Ladigan S, Lindemann M, Smith S, Quambusch L, Scheinpflug R, Depta L, Gontla R, Unger A, Müller H, Baumann M, Schultz-Fademrecht C, Günther G, Maghnouj A, Müller MP, Pohl M, Teschendorf C, Wolters H, Viebahn R, Tannapfel A, Uhl W, Hengstler JG, Hahn SA, Siveke JT, and Rauh D

Subjects

Animals, Apoptosis, Cell Cycle, Cell Proliferation, Colorectal Neoplasms genetics, Colorectal Neoplasms metabolism, Colorectal Neoplasms pathology, Drug Therapy, Combination, Female, Humans, Mice, Mice, Nude, Pancreatic Neoplasms genetics, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, Antineoplastic Agents pharmacology, Colorectal Neoplasms drug therapy, Mutation, Pancreatic Neoplasms drug therapy, Proto-Oncogene Proteins c-akt antagonists & inhibitors, Proto-Oncogene Proteins p21(ras) genetics, Pyridones pharmacology, Pyrimidinones pharmacology

Abstract

Aberrations within the PI3K/AKT signaling axis are frequently observed in numerous cancer types, highlighting the relevance of these pathways in cancer physiology and pathology. However, therapeutic interventions employing AKT inhibitors often suffer from limitations associated with target selectivity, efficacy, or dose-limiting effects. Here we present the first crystal structure of autoinhibited AKT1 in complex with the covalent-allosteric inhibitor borussertib, providing critical insights into the structural basis of AKT1 inhibition by this unique class of compounds. Comprehensive biological and preclinical evaluation of borussertib in cancer-related model systems demonstrated a strong antiproliferative activity in cancer cell lines harboring genetic alterations within the PTEN, PI3K, and RAS signaling pathways. Furthermore, borussertib displayed antitumor activity in combination with the MEK inhibitor trametinib in patient-derived xenograft models of mutant KRAS pancreatic and colon cancer. SIGNIFICANCE: Borussertib, a first-in-class covalent-allosteric AKT inhibitor, displays antitumor activity in combination with the MEK inhibitor trametinib in patient-derived xenograft models and provides a starting point for further pharmacokinetic/dynamic optimization., (©2019 American Association for Cancer Research.)

Published

2019

15. Structural and chemical insights into the covalent-allosteric inhibition of the protein kinase Akt.

Author

Uhlenbrock N, Smith S, Weisner J, Landel I, Lindemann M, Le TA, Hardick J, Gontla R, Scheinpflug R, Czodrowski P, Janning P, Depta L, Quambusch L, Müller MP, Engels B, and Rauh D

Abstract

The Ser/Thr kinase Akt (Protein Kinase B/PKB) is a master switch in cellular signal transduction pathways. Its downstream signaling influences cell proliferation, cell growth, and apoptosis, rendering Akt a prominent drug target. The unique activation mechanism of Akt involves a change of the relative orientation of its N-terminal pleckstrin homology (PH) and the kinase domain and makes this kinase suitable for highly specific allosteric modulation. Here we present a unique set of crystal structures of covalent-allosteric interdomain inhibitors in complex with full-length Akt and report the structure-based design, synthesis, biological and pharmacological evaluation of a focused library of these innovative inhibitors.

Published

2019

16. The level of total acetylcholine in discrete brain areas and behavior of rats after neuroleptics.

Author

Zieliński M, Herman ZS, Brus R, Sokola A, and Depta L

Subjects

Animals, Benperidol pharmacology, Chlorpromazine pharmacology, Exploratory Behavior drug effects, Male, Methotrimeprazine pharmacology, Phenothiazines pharmacology, Rats, Reserpine pharmacology, Thiothixene pharmacology, Acetylcholine metabolism, Antipsychotic Agents pharmacology, Behavior, Animal drug effects, Brain metabolism

Published

1975

17. Effect of neuroleptics on release on acetylcholine to the lateral cerebral ventricle in the rat.

Author

Plech A, Stachura Z, Wieloch-Depta L, and Herman ZS

Subjects

Animals, Apomorphine pharmacology, Clonidine pharmacology, Male, Physostigmine pharmacology, Rats, Rats, Inbred Strains, Acetylcholine metabolism, Antipsychotic Agents pharmacology, Cerebral Ventricles metabolism

Abstract

Release of acetylcholine (ACh) to the lateral brain ventricle of non-anaesthetised rats was investigated 24 h after intraperitoneal administration of neuroleptics or simultaneous administration of clonidine or apomorphine given subcutaneously. The only significant observed effect was an increase of ACh release by clozapine.

Published

1981

18. Effects of cholinomimetics, cholinolytics and atypical antidepressants in the behavioral despair test in the rat.

Author

Herman ZS, Plech A, Bień E, Wieloch-Depta L, and Jez W

Subjects

Animals, Male, Rats, Rats, Inbred Strains, Swimming, Time Factors, Antidepressive Agents pharmacology, Behavior, Animal drug effects, Motor Activity drug effects, Parasympatholytics pharmacology, Parasympathomimetics pharmacology

Abstract

The effect of some cholinolytics, cholinomimetics and atypical antidepressants on behavior of rats forced to swim (in the "behavioral despair test") was investigated. In addition, the relation between the test performance and the inborn level of exploratory and locomotor activities was studied. Cholinomimetics prolonged, while cholinolytics and antidepressants shortened the immobility phase ("despair reaction"). The "despair reaction" was less pronounced in rats with high motor exploratory activity level.

Published

1981

19. Acetylcholine content in the brain and heart of developing rats.

Author

Brus R, Zieliński M, and Depta L

Subjects

Age Factors, Animals, Hypothalamus analysis, Male, Medulla Oblongata metabolism, Mesencephalon analysis, Pons analysis, Rats, Thalamus analysis, Acetylcholine analysis, Brain Chemistry, Myocardium analysis

Abstract

Acetylcholine content in the brain and heart of developing rats. Acta Physiol. Pol. 1975, 26 (1): 41-44. The content of acetylcholine was determined in four parts of the brain and in the heart of developing rats. It was found that changes in acetylcholine level were not parallel in the examined brain stuctures and in the heart in the time period from birth to 18 months of age of the rats.

Published

1975

20. The influence of antidepressive drugs on the level of acetylcholine and on the acetylcholinesterase activity in the brain of rats.

Author

Herman ZS, Sokola A, Lenartowicz H, Zieliński M, and Depta L

Subjects

Animals, Antidepressive Agents, Tricyclic pharmacology, Monoamine Oxidase Inhibitors pharmacology, Rats, Reserpine antagonists & inhibitors, Time Factors, Acetylcholine analysis, Acetylcholinesterase metabolism, Antidepressive Agents pharmacology, Brain enzymology, Brain Chemistry drug effects

Abstract

Rats were treated ip with MAO inhibitos (MAO-I): nialamid (NL), pivalylbenzylhydrazine, tranylcypromine, pheniprazine (Ph) or pargyline, and the leve of total, free and bound acetylcholine (Ach) as well as the acetylcholinesterase (Ach-E) activity were estimated in four parts of rats brain 2 or 16 hr after the treatment. These parameters were estimated also after the treatment with tricyclic antidepressants: desmethylimipramine (DMI), amitriptyline, or protriptiline, and in the conditions of the reversal of reserpine-like syndrom. MAO-I, 2 hr after their application and the reversal of reserpine like-syndrom have not changed the level of measured fractions of Ach in parts of the brain. DMI increased the level of all Ach fractions in the striatum. NL caused the decrease of bound Ach level in all parts of the brain with no changes of free Ach level, 16 hr after the treatment. Ph, 16 hr after the treatment, decrease both fractions of ACh only in the cortex. All studied drugs affected evidently ACh-E activity in various parts of brain. It is concluded that:1) Cholinergic mechanisms in the rat brain are involved in the central action of DMI and of some MAO-I., 3) Cholinergic function of the brain may be modulated by the adrenergic activity, 2) Individual parts of the brain have different susceptibility to the influence of different MAO-I on the ACh-E activity.

Published

1976