CXCR4 Knockdown Via CRISPR/CAS9 in a Tumor-Associated Macrophage Model Decreases Human Breast Cancer Cell Migration.

Jaramillo-Valverde, Luis; Levano, Kelly S; Capristano, Silvia; Tarazona, David D; Cisneros, Alberto; Yufra-Picardo, Velia M; Valdivia-Silva, Julio; Guio, Heinner

Jaramillo-Valverde, Luis; Levano, Kelly S; Capristano, Silvia; Tarazona, David D; Cisneros, Alberto; Yufra-Picardo, Velia M; Valdivia-Silva, Julio; Guio, Heinner.

Afiliação

Jaramillo-Valverde L; Biotechnology and Molecular Biology Laboratory, Instituto Nacional de Salud, Lima, PER.
Levano KS; Faculty of Health Sciences, Universidad de Huánuco, Huánuco, PER.
Capristano S; Biotechnology and Molecular Biology Laboratory, Instituto Nacional de Salud, Lima, PER.
Tarazona DD; Biotechnology and Molecular Biology Laboratory, Instituto Nacional de Salud, Lima, PER.
Cisneros A; Biotechnology and Molecular Biology Laboratory, Instituto Nacional de Salud, Lima, PER.
Yufra-Picardo VM; Cell Culture Laboratory, Instituto Nacional de Salud, Lima, PER.
Valdivia-Silva J; Innóvate Peru, Ministerio de la Producción, Lima, PER.
Guio H; Bioengineering Department, Universidad de Ingenieria y Tecnologia - UTEC, Lima, PER.

Cureus ; 13(12): e20842, 2021 Dec.

Article em En | MEDLINE | ID: mdl-35111484

Palavras-chave

breast cancer; cxcr4; genomic editing; macrophages; metastasis

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Texto completo: 1 Bases de dados: MEDLINE Tipo de estudo: Risk_factors_studies Idioma: En Revista: Cureus Ano de publicação: 2021 Tipo de documento: Article