RESUMEN
In this study, based on network pharmacology and molecular docking method, the mechanism of anti-hyperplasia of mammary glands of Xihuang Pills blood-entering components was explored, and the efficacy and key targets of Xihuang Pills blood-entering components were experimentally verified by MCF-10A proliferation model of human mammary epithelial cells. In order to clarify the material basis and mechanism of Xihuang Pills in realizing anti-hyperplasia of mammary glands, the blood-entering components of Xihuang Pills were qualitatively analyzed by UPLC-Q-TOF-MS, and 22 blood-entering components were identified. By taking the blood-entering components as the research object, the network pharmacology prediction and molecular docking verification were carried out, and finally, three key targets were screened out, namely JAK1, SRC, and CDK1. In vitro experiments show that Xihuang Pills can inhibit the proliferation of MCF-10A cells, promote the apoptosis of MCF-10A cells, and reduce the expression of JAK1, SRC, and CDK1 targets in cells. To sum up, Xihuang Pills can promote the apoptosis of mammary epithelial cells by regulating the expression of JAK1, SRC, and CDK1 and then play an anti-hyperplasia role, which provides an experimental basis for clarifying the material basis of Xihuang Pills for anti-hyperplasia effect.
Asunto(s)
Humanos , Cromatografía Líquida de Alta Presión , Simulación del Acoplamiento Molecular , Farmacología en Red , Apoptosis , Hiperplasia , Medicamentos Herbarios Chinos/farmacologíaRESUMEN
OBJECTIVE:To study the effects of Calpeptin inhibitor Calpeptin on the transformation and stemness markers expression induced by estradiol(E2),and to investigate its mechanism. METHODS :Taking human mammary epithelial cells MCF-10A as research object ,transformed cells were induced by E 2 treatment. Cells were divided into control group (0.1%DMSO), E2-transformed group (50 nmol/L),E2-transformed+Calpeptin group (50 nmol/L E 2+1 μmol/L Calpeptin),then continuously treated with corresponding drug-containing culture medium for 15 generations. Then ,MTT assay was used to determine the proliferation rate of cells (24,48 h);plate colony test was used to detect the Clone formation rate of cells ;the number of sphere-forming cells was measured by suspension spheroidization test ;mRNA expressions of stemness marker (CD44,Nanog,OCT4)and extracellular sigal-regulated kinase (ERK)were detected by RT-qPCR ,and protein expressions of CD 44,Nanog,OCT4 ,ERK and p-ERK were detected by Western blotting assay. Another E 2-transformed cells were divided into control group (0.1%DMSO)and U0126 (ERK inhibitor )group(10 μmol/L). Clone formation rate ,the number of sphere-forming ,protein expressions of CD 44,Nanog, OCT4,ERK and p-ERK were determined with above methods ,and to validate the relationship of ERK inhibition with transformed cell behavior and the expression of stemness markers. RESULTS :Compared with control group ,proliferation rate and clone formation rate of E 2 transformed group were increased significantly (P<0.01),and the number of sphere-forming was increased significantly(P<0.01);mRNA expression levels of CD 44,Nanog,OCT4,ERK and protein expression levels of CD 44,Nanog, OCT4 and p-ERK in cells were increased significantly (P<0.01). Compared with E 2-transformed group ,proliferation rate (24,48 h)and clone formation rate of E 2-transformed + Calpeptin group were decreased significantly (P<0.01),and the number of sphere-forming was decreased significantly (P<0.05);mRNA expression levels of CD 44,Nanog,OCT4 ,ERK and protein expression levels of CD 44,Nanog,OCT4,p-ERK in cells were decreased significantly (P<0.05 or P<0.01). After treated with ERK inhibitor U 0126,clone formation rate of E 2-transformed cells ,the number of sphere-forming ,protein expression levels of CD44,Nanog,OCT4 and p-ERK were increased significantly (P<0.05 or P<0.01). CONCLUSIONS :Calpeptin can inhibit the transformation and the expression of stemness markers of human mammary epithelial cells MCF- 10A,and the mechanism of it may be associated with inhibiting the activation of Calpain-ERK signaling pathway.