RÉSUMÉ
Complement regulatory proteins (mCRPs) CD55, CD46 and CD59 have been proposed as key elements in therapeutic resistance against cancer. mCRP-expressing tumor cells, in addition to hindering trastuzumab, pertuzumab and sacituzumab-govitecan therapeutic activity in breast cancer, can regulate biological processes that promote tumor progression. This review describes the structure of mCRPs and analyzes their expression using transcriptomic databases from breast cancer patients, in addition to collecting information on mCRPs interactions and signaling in tumor cells. Given that mCRPs are relevant targets, several strategies that have been explored for their inhibition and regulation in order to increase therapeutic efficacy and prevent cancer resistance and progression are described.
Se ha propuesto a las proteínas reguladoras de complemento (mCRP) CD55, CD46 y CD59 como piezas clave en la resistencia terapéutica contra el cáncer. Las células tumorales que expresan las mCRP, además de obstaculizar la actividad terapéutica de trastuzumab, pertuzumab y sacituzumab-govitecan en cáncer de mama, pueden regular procesos biológicos que promueven la progresión tumoral. Esta revisión describe la estructura de las mCRP y analiza su expresión a partir de bases de datos transcriptómicos de pacientes con cáncer de mama; también recopila información de interacciones y señalización de las mCRP en células tumorales. Dado que estas mCRP son dianas relevantes, se describen diversas estrategias para su inhibición y regulación para incrementar la eficacia terapéutica y evitar la resistencia y progresión del cáncer.
Sujet(s)
Tumeurs du sein , Tumeurs du sein/traitement médicamenteux , Antigènes CD55/métabolisme , Activation du complément , Protéines du système du complément/physiologie , Femelle , Humains , Antigènes CD46/métabolisme , TrastuzumabRÉSUMÉ
CD55, CD59, CD46, and CD35 are proteins with complement regulatory (Creg) properties that ensure cell and tissue integrity when this system is activated. The aim of this study was to evaluate the Creg expression on peripheral blood cells from SLE patients and its association with cytopenia and disease activity. Flow cytometric analyses were performed on blood cells from 100 SLE patients and 61 healthy controls. Compared with healthy controls, we observed in SLE patients with lymphopenia and neutropenia decreased expression of CD55, CD59, and CD46 (P < 0.05). In SLE patients with anemia, CD59 and CD35 were decreased on red blood cells. Furthermore, there was a negative correlation between CD55 and CD59 on neutrophils and the disease activity. The results suggest there is an altered pattern of Creg expression on the peripheral blood cells of SLE patients, and the expression is correlated with disease activity and/or with activation of the complement system.
Sujet(s)
Antigènes CD/métabolisme , Cellules sanguines/métabolisme , Protéines du système du complément/métabolisme , Lupus érythémateux disséminé/métabolisme , Adulte , Cellules sanguines/immunologie , Antigènes CD55/métabolisme , Antigènes CD59/métabolisme , Protéines du système du complément/immunologie , Érythrocytes/métabolisme , Femelle , Humains , Immunophénotypage , Lupus érythémateux disséminé/immunologie , Mâle , Antigènes CD46/métabolisme , Adulte d'âge moyen , Monocytes/métabolisme , Granulocytes neutrophiles/métabolisme , Récepteurs au C3b du complément/métabolismeRÉSUMÉ
The present study describes the temporal expression of complement regulatory molecules membrane cofactor protein (MCP), decay accelerating factor (DAF), CR1, and CD59 in the human endometrium throughout the normal menstrual cycle and in patients submitted to ovarian hyperstimulation. During its proliferative phase, the endometrium expresses MCP, with increased expression during the secretory phase. Phase-dependent expression also was observed for DAF and CD59, mainly in the secretory phase. Expression of CR1 was not detected. These results suggest the presence of complement system activity during the menstrual cycle, with greater expression of regulatory molecules during the secretory phase to protect the epithelial integrity of human endometrium.