Development of chitosan particles loaded with siRNA for cystatin C to control intracellular drug-resistant mycobacterium tuberculosis

David Pires; Manoj Mandal; Ana I. Matos; Carina Peres; Maria João Catalão; José Miguel Azevedo-Pereira; Ronit Satchi-Fainaro; Helena F. Florindo; Elsa Anes

doi:10.3390/antibiotics12040729

Development of chitosan particles loaded with siRNA for cystatin C to control intracellular drug-resistant mycobacterium tuberculosis

David Pires, Manoj Mandal, Ana I. Matos, Carina Peres, Maria João Catalão, José Miguel Azevedo-Pereira, Ronit Satchi-Fainaro, Helena F. Florindo, Elsa Anes^*

^*Autor correspondente para este trabalho

Resultado de pesquisa › revisão de pares

8 Citações (Scopus)

31 Transferências (Pure)

Resumo

The golden age of antibiotics for tuberculosis (TB) is marked by its success in the 1950s of the last century. However, TB is not under control, and the rise in antibiotic resistance worldwide is a major threat to global health care. Understanding the complex interactions between TB bacilli and their host can inform the rational design of better TB therapeutics, including vaccines, new antibiotics, and host-directed therapies. We recently demonstrated that the modulation of cystatin C in human macrophages via RNA silencing improved the anti-mycobacterial immune responses to Mycobacterium tuberculosis infection. Available in vitro transfection methods are not suitable for the clinical translation of host-cell RNA silencing. To overcome this limitation, we developed different RNA delivery systems (DSs) that target human macrophages. Human peripheral blood-derived macrophages and THP1 cells are difficult to transfect using available methods. In this work, a new potential nanomedicine based on chitosan (CS-DS) was efficiently developed to carry a siRNA-targeting cystatin C to the infected macrophage models. Consequently, an effective impact on the intracellular survival/replication of TB bacilli, including drug-resistant clinical strains, was observed. Altogether, these results suggest the potential use of CS-DS in adjunctive therapy for TB in combination or not with antibiotics.

Idioma original	English
Número do artigo	729
Número de páginas	14
Revista	Antibiotics
Volume	12
Número de emissão	4
DOIs	https://doi.org/10.3390/antibiotics12040729
Estado da publicação	Publicado - 8 abr. 2023

ODS da ONU

Este resultado contribui para o(s) seguinte(s) Objetivo(s) de Desenvolvimento Sustentável

Acesso ao documento

10.3390/antibiotics12040729Licença:

68538521Final published version, 2 MBLicença:

http://hdl.handle.net/10400.14/41077Licença:

Outros arquivos e links

Link to publication in Scopus

1 Terminados
1 Ativos

Establishing an independent research laboratory in the fields of biomedical sciences or translational medicine
Pires, D. (PI)
Fundação para a Ciência e a Tecnologia
8/06/22 → 7/06/28
Projeto
CIIS: Centro de Investigação Interdisciplinar em Saúde
Barros, M. (PI), Rosa, N. (Investigador), Correia, M. J. (Investigador), Caldas, A. C. (Investigador), Amado, J. C. (Investigador), Figueiredo, A. S. (Investigador), Esteves, A. C. (Investigador), Mineiro, A. (Investigador), Abreu, A. M. (Investigador), Duarte, A. S. (Investigador), Almeida, S. F. (Investigador), Correia, A. (Investigador), Moura, A. (Investigador), Almeida, A. (Investigador), Araújo, B. (Investigador), Moura-Netto, C. (Investigador), Ferrito, C. (Investigador), Pais-Vieira, C. (Investigador), Festas, C. (Investigador), Marques-Vieira, C. (Investigador), Catré, D. (Investigador), Nunes, E. (Investigador), Jesus, É. (Investigador), Ribeiro, F. (Investigador), Rosário, F. (Investigador), Fernandes, G. (Investigador), Rato, J. R. (Bolseiro), Salgado, J. R. (Investigador), Neves-Amado, J. (Investigador), Amendoeira, J. (Investigador), Sá, L. (Investigador), Capelas, M. L. (Investigador), Vieira, M. M. (Investigador), Nunes, M. V. S. (Investigador), Cardoso, M. (Investigador), Veiga, N. J. (Investigador), Fonseca, P. (Investigador), Correia, P. N. (Investigador), Couto, P. (Investigador), Pontífice-Sousa, P. (Investigador), Ravasco, P. (Investigador), Carvalho, P. V. D. (Investigador), Alves, P. (Investigador), Melo, P. (Investigador), Silva, R. (Investigador), Canaipa, R. (Investigador), Noites, R. (Investigador), Rio, R. (Investigador), Almeida, S. (Investigador), Deodato, S. (Investigador), Caldeira, S. (Investigador), Silva, S. (Investigador), Borges, T. (Investigador), Silva, V. (Investigador), Charepe, Z. (Investigador), Rodrigues-Pires, F. (Voluntário), Veludo, F. (Investigador), Carmo, H. (Bolseiro), Romeiro, J. (Estudante), Melo, M. (Investigador), Braga, M. (Investigador), Amaral, T. (Investigador), Moreira, M. A. (Investigador), Guerra, N. (Estudante), Santos, P. (Investigador), Paço, S. (Estudante), Lynce, S. (Bolseiro), Miguel, S. (Estudante), Costa, T. (Investigador), Silva-Neves, V. (Investigador), Silva, A. (Investigador), Carvalho, A. R. (Investigador), Almeida, B. (Investigador), Figueiredo, C. (Investigador), Esteves, E. (Bolseiro), Araújo, F. M. (Investigador), Garcia, J. G. (Investigador), Santos, L. (Investigador), Santos, N. M. D. (Investigador), Lopes, P. (Investigador), Bornes, R. (Investigador), Silva, R. (Investigador), Costa, S. (Investigador), Silva, S. M. (Investigador), Marques, T. (Investigador), Almeida, A. (Investigador), Santos, M. (Bolseiro), Santos, P. (Investigador), Miguel, S. (Investigador), Mendes, K. (Investigador), Gomes, A. P. (Investigador), Henriques, J. M. P. (Investigador), Costa, H. A. F. P. (Investigador) & Ribeiro, P. (Investigador)
Fundação para a Ciência e a Tecnologia
1/01/20 → 31/12/24
Projeto

Citação

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title = "Development of chitosan particles loaded with siRNA for cystatin C to control intracellular drug-resistant mycobacterium tuberculosis",

abstract = "The golden age of antibiotics for tuberculosis (TB) is marked by its success in the 1950s of the last century. However, TB is not under control, and the rise in antibiotic resistance worldwide is a major threat to global health care. Understanding the complex interactions between TB bacilli and their host can inform the rational design of better TB therapeutics, including vaccines, new antibiotics, and host-directed therapies. We recently demonstrated that the modulation of cystatin C in human macrophages via RNA silencing improved the anti-mycobacterial immune responses to Mycobacterium tuberculosis infection. Available in vitro transfection methods are not suitable for the clinical translation of host-cell RNA silencing. To overcome this limitation, we developed different RNA delivery systems (DSs) that target human macrophages. Human peripheral blood-derived macrophages and THP1 cells are difficult to transfect using available methods. In this work, a new potential nanomedicine based on chitosan (CS-DS) was efficiently developed to carry a siRNA-targeting cystatin C to the infected macrophage models. Consequently, an effective impact on the intracellular survival/replication of TB bacilli, including drug-resistant clinical strains, was observed. Altogether, these results suggest the potential use of CS-DS in adjunctive therapy for TB in combination or not with antibiotics.",

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AU - Pires, David

AU - Mandal, Manoj

AU - Matos, Ana I.

AU - Peres, Carina

AU - Catalão, Maria João

AU - Azevedo-Pereira, José Miguel

AU - Satchi-Fainaro, Ronit

AU - Florindo, Helena F.

AU - Anes, Elsa

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KW - Cathepsin inhibitors

KW - Chitosan

KW - Cystatins

KW - Host-directed therapies

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Development of chitosan particles loaded with siRNA for cystatin C to control intracellular drug-resistant mycobacterium tuberculosis

Resumo

ODS da ONU

Acesso ao documento

Outros arquivos e links

Impressão digital

Projetos

Establishing an independent research laboratory in the fields of biomedical sciences or translational medicine

CIIS: Centro de Investigação Interdisciplinar em Saúde

Citação