Novel Assay Platform to Evaluate Intracellular Killing of Mycobacterium tuberculosis : In Vitro and In Vivo Validation
One of the main hallmarks of tuberculosis (TB) is the ability of the causative agent to transform into a stage of dormancy and the capability of long persistence in the host phagocytes. It is believed that approximately one-third of the population of the world is latently infected with ( ), and 5%-1...
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| Published in | Frontiers in immunology Vol. 12; p. 750496 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
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Frontiers Media S.A
12.11.2021
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| Abstract | One of the main hallmarks of tuberculosis (TB) is the ability of the causative agent to transform into a stage of dormancy and the capability of long persistence in the host phagocytes. It is believed that approximately one-third of the population of the world is latently infected with
(
), and 5%-10% of these individuals can develop clinical manifestations of active TB even decades after the initial infection. In this latent, intracellular form, the
is shielded by an extremely robust cell wall and becomes phenotypically resistant to most antituberculars. Therefore, there is a clear rationale to develop novel compounds or carrier-conjugated constructs of existing drugs that are effective against the intracellular form of the bacilli. In this paper, we describe an experimental road map to define optimal candidates against intracellular
and potential compounds effective in the therapy of latent TB. To validate our approach, isoniazid, a first-line antitubercular drug was employed, which is active against extracellular
in the submicromolar range, but ineffective against the intracellular form of the bacteria. Cationic peptide conjugates of isoniazid were synthesized and employed to study the host-directed drug delivery. To measure the intracellular killing activity of the compounds,
-infected MonoMac-6 human monocytic cells were utilized. We have assessed the antitubercular activity, cytotoxicity, membrane interactions in combination with internalization efficacy, localization, and penetration ability on interface and tissue-mimicking 3D models. Based on these
data, most active compounds were further evaluated
in a murine model of TB. Intraperitoneal infectious route was employed to induce a course of slowly progressive and systemic disease. The well-being of the animals, monitored by the body weight, allows a prolonged experimental setup and provides a great opportunity to test the long-term activity of the drug candidates. Having shown the great potency of this simple and suitable experimental design for antimicrobial research, the proposed novel assay platform could be used in the future to develop further innovative and highly effective antituberculars. |
|---|---|
| AbstractList | One of the main hallmarks of tuberculosis (TB) is the ability of the causative agent to transform into a stage of dormancy and the capability of long persistence in the host phagocytes. It is believed that approximately one-third of the population of the world is latently infected with Mycobacterium tuberculosis (Mtb), and 5%–10% of these individuals can develop clinical manifestations of active TB even decades after the initial infection. In this latent, intracellular form, the bacillus is shielded by an extremely robust cell wall and becomes phenotypically resistant to most antituberculars. Therefore, there is a clear rationale to develop novel compounds or carrier-conjugated constructs of existing drugs that are effective against the intracellular form of the bacilli. In this paper, we describe an experimental road map to define optimal candidates against intracellular Mtb and potential compounds effective in the therapy of latent TB. To validate our approach, isoniazid, a first-line antitubercular drug was employed, which is active against extracellular Mtb in the submicromolar range, but ineffective against the intracellular form of the bacteria. Cationic peptide conjugates of isoniazid were synthesized and employed to study the host-directed drug delivery. To measure the intracellular killing activity of the compounds, Mtb-infected MonoMac-6 human monocytic cells were utilized. We have assessed the antitubercular activity, cytotoxicity, membrane interactions in combination with internalization efficacy, localization, and penetration ability on interface and tissue-mimicking 3D models. Based on these in vitro data, most active compounds were further evaluated in vivo in a murine model of TB. Intraperitoneal infectious route was employed to induce a course of slowly progressive and systemic disease. The well-being of the animals, monitored by the body weight, allows a prolonged experimental setup and provides a great opportunity to test the long-term activity of the drug candidates. Having shown the great potency of this simple and suitable experimental design for antimicrobial research, the proposed novel assay platform could be used in the future to develop further innovative and highly effective antituberculars. One of the main hallmarks of tuberculosis (TB) is the ability of the causative agent to transform into a stage of dormancy and the capability of long persistence in the host phagocytes. It is believed that approximately one-third of the population of the world is latently infected with Mycobacterium tuberculosis ( Mtb ), and 5%–10% of these individuals can develop clinical manifestations of active TB even decades after the initial infection. In this latent, intracellular form, the bacillus is shielded by an extremely robust cell wall and becomes phenotypically resistant to most antituberculars. Therefore, there is a clear rationale to develop novel compounds or carrier-conjugated constructs of existing drugs that are effective against the intracellular form of the bacilli. In this paper, we describe an experimental road map to define optimal candidates against intracellular Mtb and potential compounds effective in the therapy of latent TB. To validate our approach, isoniazid, a first-line antitubercular drug was employed, which is active against extracellular Mtb in the submicromolar range, but ineffective against the intracellular form of the bacteria. Cationic peptide conjugates of isoniazid were synthesized and employed to study the host-directed drug delivery. To measure the intracellular killing activity of the compounds, Mtb -infected MonoMac-6 human monocytic cells were utilized. We have assessed the antitubercular activity, cytotoxicity, membrane interactions in combination with internalization efficacy, localization, and penetration ability on interface and tissue-mimicking 3D models. Based on these in vitro data, most active compounds were further evaluated in vivo in a murine model of TB. Intraperitoneal infectious route was employed to induce a course of slowly progressive and systemic disease. The well-being of the animals, monitored by the body weight, allows a prolonged experimental setup and provides a great opportunity to test the long-term activity of the drug candidates. Having shown the great potency of this simple and suitable experimental design for antimicrobial research, the proposed novel assay platform could be used in the future to develop further innovative and highly effective antituberculars. One of the main hallmarks of tuberculosis (TB) is the ability of the causative agent to transform into a stage of dormancy and the capability of long persistence in the host phagocytes. It is believed that approximately one-third of the population of the world is latently infected with ( ), and 5%-10% of these individuals can develop clinical manifestations of active TB even decades after the initial infection. In this latent, intracellular form, the is shielded by an extremely robust cell wall and becomes phenotypically resistant to most antituberculars. Therefore, there is a clear rationale to develop novel compounds or carrier-conjugated constructs of existing drugs that are effective against the intracellular form of the bacilli. In this paper, we describe an experimental road map to define optimal candidates against intracellular and potential compounds effective in the therapy of latent TB. To validate our approach, isoniazid, a first-line antitubercular drug was employed, which is active against extracellular in the submicromolar range, but ineffective against the intracellular form of the bacteria. Cationic peptide conjugates of isoniazid were synthesized and employed to study the host-directed drug delivery. To measure the intracellular killing activity of the compounds, -infected MonoMac-6 human monocytic cells were utilized. We have assessed the antitubercular activity, cytotoxicity, membrane interactions in combination with internalization efficacy, localization, and penetration ability on interface and tissue-mimicking 3D models. Based on these data, most active compounds were further evaluated in a murine model of TB. Intraperitoneal infectious route was employed to induce a course of slowly progressive and systemic disease. The well-being of the animals, monitored by the body weight, allows a prolonged experimental setup and provides a great opportunity to test the long-term activity of the drug candidates. Having shown the great potency of this simple and suitable experimental design for antimicrobial research, the proposed novel assay platform could be used in the future to develop further innovative and highly effective antituberculars. |
| Author | Senoner, Zsuzsanna Bősze, Szilvia Fodor, Kinga Pályi, Bernadett Henczkó, Judit Gyulai, Gergő Horváti, Kata Balka, Gyula Kiss, Éva Biri-Kovács, Beáta |
| AuthorAffiliation | 3 Department of Laboratory Animal Science and Animal Protection, University of Veterinary Medicine , Budapest , Hungary 7 National Korányi Institute of Pulmonology , Budapest , Hungary 2 Institute of Chemistry, Eötvös Loránd University , Budapest , Hungary 1 Eötvös Loránd Kutatási Hálózat-Eötvös Loránd Tudományegyetem (ELKH-ELTE) Research Group of Peptide Chemistry, Eötvös Loránd Research Network, Eötvös Loránd University , Budapest , Hungary 6 Laboratory of Interfaces and Nanostructures, Institute of Chemistry, Eötvös Loránd University , Budapest , Hungary 5 Department of Pathology, University of Veterinary Medicine , Budapest , Hungary 4 National Biosafety Laboratory, National Public Health Center , Budapest , Hungary |
| AuthorAffiliation_xml | – name: 3 Department of Laboratory Animal Science and Animal Protection, University of Veterinary Medicine , Budapest , Hungary – name: 5 Department of Pathology, University of Veterinary Medicine , Budapest , Hungary – name: 1 Eötvös Loránd Kutatási Hálózat-Eötvös Loránd Tudományegyetem (ELKH-ELTE) Research Group of Peptide Chemistry, Eötvös Loránd Research Network, Eötvös Loránd University , Budapest , Hungary – name: 2 Institute of Chemistry, Eötvös Loránd University , Budapest , Hungary – name: 7 National Korányi Institute of Pulmonology , Budapest , Hungary – name: 4 National Biosafety Laboratory, National Public Health Center , Budapest , Hungary – name: 6 Laboratory of Interfaces and Nanostructures, Institute of Chemistry, Eötvös Loránd University , Budapest , Hungary |
| Author_xml | – sequence: 1 givenname: Kata surname: Horváti fullname: Horváti, Kata organization: Institute of Chemistry, Eötvös Loránd University, Budapest, Hungary – sequence: 2 givenname: Kinga surname: Fodor fullname: Fodor, Kinga organization: Department of Laboratory Animal Science and Animal Protection, University of Veterinary Medicine, Budapest, Hungary – sequence: 3 givenname: Bernadett surname: Pályi fullname: Pályi, Bernadett organization: National Biosafety Laboratory, National Public Health Center, Budapest, Hungary – sequence: 4 givenname: Judit surname: Henczkó fullname: Henczkó, Judit organization: National Biosafety Laboratory, National Public Health Center, Budapest, Hungary – sequence: 5 givenname: Gyula surname: Balka fullname: Balka, Gyula organization: Department of Pathology, University of Veterinary Medicine, Budapest, Hungary – sequence: 6 givenname: Gergő surname: Gyulai fullname: Gyulai, Gergő organization: Laboratory of Interfaces and Nanostructures, Institute of Chemistry, Eötvös Loránd University, Budapest, Hungary – sequence: 7 givenname: Éva surname: Kiss fullname: Kiss, Éva organization: Laboratory of Interfaces and Nanostructures, Institute of Chemistry, Eötvös Loránd University, Budapest, Hungary – sequence: 8 givenname: Beáta surname: Biri-Kovács fullname: Biri-Kovács, Beáta organization: Institute of Chemistry, Eötvös Loránd University, Budapest, Hungary – sequence: 9 givenname: Zsuzsanna surname: Senoner fullname: Senoner, Zsuzsanna organization: National Korányi Institute of Pulmonology, Budapest, Hungary – sequence: 10 givenname: Szilvia surname: Bősze fullname: Bősze, Szilvia organization: National Biosafety Laboratory, National Public Health Center, Budapest, Hungary |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34867981$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1021_acs_bioconjchem_3c00273 crossref_primary_10_3390_ph17020201 crossref_primary_10_3390_pharmaceutics15112646 crossref_primary_10_1016_j_ijpharm_2024_123960 crossref_primary_10_1016_j_tube_2023_102318 crossref_primary_10_1021_acsinfecdis_3c00463 crossref_primary_10_1016_j_bioorg_2023_106591 crossref_primary_10_1021_acsomega_3c05727 crossref_primary_10_1016_j_tube_2022_102227 crossref_primary_10_1016_j_ejmech_2023_115611 |
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| ContentType | Journal Article |
| Copyright | Copyright © 2021 Horváti, Fodor, Pályi, Henczkó, Balka, Gyulai, Kiss, Biri-Kovács, Senoner and Bősze. Copyright © 2021 Horváti, Fodor, Pályi, Henczkó, Balka, Gyulai, Kiss, Biri-Kovács, Senoner and Bősze 2021 Horváti, Fodor, Pályi, Henczkó, Balka, Gyulai, Kiss, Biri-Kovács, Senoner and Bősze |
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| Keywords | cell penetrating peptides isoniazid tuberculosis Dhvar4 MonoMac-6 Transwell spheroid |
| Language | English |
| License | Copyright © 2021 Horváti, Fodor, Pályi, Henczkó, Balka, Gyulai, Kiss, Biri-Kovács, Senoner and Bősze. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
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| Notes | Edited by: Samantha Leigh Sampson, Stellenbosch University, South Africa This article was submitted to Molecular Innate Immunity, a section of the journal Frontiers in Immunology Reviewed by: Joshua Mattila, University of Pittsburgh, United States; Aravind Madhavan, Rajiv Gandhi Centre for Biotechnology, India |
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| Title | Novel Assay Platform to Evaluate Intracellular Killing of Mycobacterium tuberculosis : In Vitro and In Vivo Validation |
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