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Chandía-Cristi A, Gutiérrez DA, Dulcey AE, Lara M, Vargas L, Lin YH, Jimenez-Muñoz P, Larenas G, Xu X, Wang A, Owens A, Dextras C, Chen Y, Pinto C, Marín T, Almarza-Salazar H, Acevedo K, Cancino GI, Hu X, Rojas P, Ferrer M, Southall N, Henderson MJ, Zanlungo S, Marugan JJ, Álvarez R A. Prophylactic treatment with the c-Abl inhibitor, neurotinib, diminishes neuronal damage and the convulsive state in pilocarpine-induced mice. Cell Rep 2024; 43:114144. [PMID: 38656874 DOI: 10.1016/j.celrep.2024.114144] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/02/2022] [Revised: 03/13/2024] [Accepted: 04/09/2024] [Indexed: 04/26/2024] Open
Abstract
The molecular mechanisms underlying seizure generation remain elusive, yet they are crucial for developing effective treatments for epilepsy. The current study shows that inhibiting c-Abl tyrosine kinase prevents apoptosis, reduces dendritic spine loss, and maintains N-methyl-d-aspartate (NMDA) receptor subunit 2B (NR2B) phosphorylated in in vitro models of excitotoxicity. Pilocarpine-induced status epilepticus (SE) in mice promotes c-Abl phosphorylation, and disrupting c-Abl activity leads to fewer seizures, increases latency toward SE, and improved animal survival. Currently, clinically used c-Abl inhibitors are non-selective and have poor brain penetration. The allosteric c-Abl inhibitor, neurotinib, used here has favorable potency, selectivity, pharmacokinetics, and vastly improved brain penetration. Neurotinib-administered mice have fewer seizures and improved survival following pilocarpine-SE induction. Our findings reveal c-Abl kinase activation as a key factor in ictogenesis and highlight the impact of its inhibition in preventing the insurgence of epileptic-like seizures in rodents and humans.
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Affiliation(s)
- América Chandía-Cristi
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Daniela A Gutiérrez
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile; Millennium Institute on Immunology and Immunotherapy, Biological Sciences Faculty, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Andrés E Dulcey
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Marcelo Lara
- Neuroscience Laboratory, Biology and Chemistry Faculty, Universidad de Santiago de Chile, Avenue Libertador Bernardo O'Higgins, Santiago 3363, Chile
| | - Lina Vargas
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Yi-Han Lin
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Pablo Jimenez-Muñoz
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Gabriela Larenas
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Xin Xu
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Amy Wang
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Ashley Owens
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Christopher Dextras
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - YuChi Chen
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Claudio Pinto
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Tamara Marín
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile; Millennium Institute on Immunology and Immunotherapy, Biological Sciences Faculty, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Hugo Almarza-Salazar
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile; Millennium Institute on Immunology and Immunotherapy, Biological Sciences Faculty, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Keryma Acevedo
- Neurology Unit of Pediatric Division, Pontificia Universidad Católica de Chile, Avenue Libertador Bernardo O'Higgins 340, Santiago, Chile
| | - Gonzalo I Cancino
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile
| | - Xin Hu
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Patricio Rojas
- Neuroscience Laboratory, Biology and Chemistry Faculty, Universidad de Santiago de Chile, Avenue Libertador Bernardo O'Higgins, Santiago 3363, Chile
| | - Marc Ferrer
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Noel Southall
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Mark J Henderson
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA
| | - Silvana Zanlungo
- Department of Gastroenterology, Faculty of Medicine, Pontificia Universidad Católica de Chile, Avenue Libertador Bernardo O'Higgins 340, Santiago, Chile.
| | - Juan J Marugan
- Early Translation Branch, National Center for Advancing Translational Sciences (NCATS), NIH, 9800 Medical Center Drive, Rockville, MD, USA.
| | - Alejandra Álvarez R
- Department of Cellular and Molecular Biology, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile; Millennium Institute on Immunology and Immunotherapy, Biological Sciences Faculty, Pontificia Universidad Católica de Chile, Portugal 49, Santiago, Chile.
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Álvarez A, Gutiérrez D, Chandía-Cristi A, Yáñez M, Zanlungo S. c-Abl kinase at the crossroads of healthy synaptic remodeling and synaptic dysfunction in neurodegenerative diseases. Neural Regen Res 2023; 18:237-243. [PMID: 35900397 PMCID: PMC9396477 DOI: 10.4103/1673-5374.346540] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/28/2022] Open
Abstract
Our ability to learn and remember depends on the active formation, remodeling, and elimination of synapses. Thus, the development and growth of synapses as well as their weakening and elimination are essential for neuronal rewiring. The structural reorganization of synaptic complexes, changes in actin cytoskeleton and organelle dynamics, as well as modulation of gene expression, determine synaptic plasticity. It has been proposed that dysregulation of these key synaptic homeostatic processes underlies the synaptic dysfunction observed in many neurodegenerative diseases. Much is known about downstream signaling of activated N-methyl-D-aspartate and α-amino-3-hydroxy-5-methyl-4-isoazolepropionate receptors; however, other signaling pathways can also contribute to synaptic plasticity and long-lasting changes in learning and memory. The non-receptor tyrosine kinase c-Abl (ABL1) is a key signal transducer of intra and extracellular signals, and it shuttles between the cytoplasm and the nucleus. This review focuses on c-Abl and its synaptic and neuronal functions. Here, we discuss the evidence showing that the activation of c-Abl can be detrimental to neurons, promoting the development of neurodegenerative diseases. Nevertheless, c-Abl activity seems to be in a pivotal balance between healthy synaptic plasticity, regulating dendritic spines remodeling and gene expression after cognitive training, and synaptic dysfunction and loss in neurodegenerative diseases. Thus, c-Abl genetic ablation not only improves learning and memory and modulates the brain genetic program of trained mice, but its absence provides dendritic spines resiliency against damage. Therefore, the present review has been designed to elucidate the common links between c-Abl regulation of structural changes that involve the actin cytoskeleton and organelles dynamics, and the transcriptional program activated during synaptic plasticity. By summarizing the recent discoveries on c-Abl functions, we aim to provide an overview of how its inhibition could be a potentially fruitful treatment to improve degenerative outcomes and delay memory loss.
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Morales-Zavala F, Casanova-Morales N, Gonzalez RB, Chandía-Cristi A, Estrada LD, Alvizú I, Waselowski V, Guzman F, Guerrero S, Oyarzún-Olave M, Rebolledo C, Rodriguez E, Armijo J, Bhuyan H, Favre M, Alvarez AR, Kogan MJ, Maze JR. Functionalization of stable fluorescent nanodiamonds towards reliable detection of biomarkers for Alzheimer's disease. J Nanobiotechnology 2018; 16:60. [PMID: 30097010 PMCID: PMC6085760 DOI: 10.1186/s12951-018-0385-7] [Citation(s) in RCA: 25] [Impact Index Per Article: 4.2] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/09/2018] [Accepted: 07/20/2018] [Indexed: 01/01/2023] Open
Abstract
Background Stable and non-toxic fluorescent markers are gaining attention in molecular diagnostics as powerful tools for enabling long and reliable biological studies. Such markers should not only have a long half-life under several assay conditions showing no photo bleaching or blinking but also, they must allow for their conjugation or functionalization as a crucial step for numerous applications such as cellular tracking, biomarker detection and drug delivery. Results We report the functionalization of stable fluorescent markers based on nanodiamonds (NDs) with a bifunctional peptide. This peptide is made of a cell penetrating peptide and a six amino acids long β-sheet breaker peptide that is able to recognize amyloid β (Aβ) aggregates, a biomarker for the Alzheimer disease. Our results indicate that functionalized NDs (fNDs) are not cytotoxic and can be internalized by the cells. The fNDs allow ultrasensitive detection (at picomolar concentrations of NDs) of in vitro amyloid fibrils and amyloid aggregates in AD mice brains. Conclusions The fluorescence of functionalized NDs is more stable than that of fluorescent markers commonly used to
stain Aβ aggregates such as Thioflavin T. These results pave the way for performing ultrasensitive and reliable detection of Aβ aggregates involved in the pathogenesis of the Alzheimer disease. Electronic supplementary material The online version of this article (10.1186/s12951-018-0385-7) contains supplementary material, which is available to authorized users.
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Affiliation(s)
- Francisco Morales-Zavala
- Department of Pharmacological and Toxicological Chemistry, Facultad de Ciencias Químicas y Farmacéuticas, Universidad de Chile, Santiago, Chile.,Advanced Center for Chronic Diseases (ACCDiS), Santiago, Chile
| | | | - Raúl B Gonzalez
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile
| | - América Chandía-Cristi
- Department of Cellular & Molecular Biology, Pontificia Universidad Católica de Chile, Santiago, Chile
| | | | - Ignacio Alvizú
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile
| | - Victor Waselowski
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile
| | - Fanny Guzman
- Núcleo de Biotecnología Curauma, Pontificia Universidad Católica de Valparaíso, Valparaíso, Chile
| | - Simón Guerrero
- Department of Pharmacological and Toxicological Chemistry, Facultad de Ciencias Químicas y Farmacéuticas, Universidad de Chile, Santiago, Chile.,Advanced Center for Chronic Diseases (ACCDiS), Santiago, Chile
| | - Marisol Oyarzún-Olave
- Department of Cellular & Molecular Biology, Pontificia Universidad Católica de Chile, Santiago, Chile
| | - Cristian Rebolledo
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile
| | - Enrique Rodriguez
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile
| | - Julien Armijo
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile.,Centro de Investigación en Recursos Naturales y Sustentabilidad, Universidad Bernardo O'Higgins, Santiago, Chile
| | - Heman Bhuyan
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile
| | - Mario Favre
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile
| | - Alejandra R Alvarez
- Department of Cellular & Molecular Biology, Pontificia Universidad Católica de Chile, Santiago, Chile. .,Center for Nanoscale Technology and Advanced Materials, Pontificia Universidad Catolica de Chile, Santiago, Chile. .,CARE-Chile-UC, Pontificia Universidad Católica de Chile, Santiago, Chile.
| | - Marcelo J Kogan
- Department of Pharmacological and Toxicological Chemistry, Facultad de Ciencias Químicas y Farmacéuticas, Universidad de Chile, Santiago, Chile. .,Advanced Center for Chronic Diseases (ACCDiS), Santiago, Chile.
| | - Jerónimo R Maze
- Institute of Physics, Pontificia Universidad Católica de Chile, Santiago, 7820436, Chile. .,Center for Nanoscale Technology and Advanced Materials, Pontificia Universidad Catolica de Chile, Santiago, Chile.
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