Sera from women with different metabolic and menopause states differentially regulate cell viability and Akt activation in a breast cancer in-vitro model.
Laura C Flores-GarcíaJosé L Ventura-GallegosSandra L Romero-CórdobaAlfredo J Hernández-JuárezMaría A Naranjo-MenesesEduardo García-GarcíaJuan Pablo MéndezAlberto J Cabrera-QuinteroAntonio Ramírez-RuízSigifredo Pedraza-SánchezNoemi Meraz-CruzFelipe Vadillo-OrtegaAlejandro Zentella-DehesaPublished in: PloS one (2022)
Obesity is associated with an increased incidence and aggressiveness of breast cancer and is estimated to increment the development of this tumor by 50 to 86%. These associations are driven, in part, by changes in the serum molecules. Epidemiological studies have reported that Metformin reduces the incidence of obesity-associated cancer, probably by regulating the metabolic state. In this study, we evaluated in a breast cancer in-vitro model the activation of the IR-β/Akt/p70S6K pathway by exposure to human sera with different metabolic and hormonal characteristics. Furthermore, we evaluated the effect of brief Metformin treatment on sera of obese postmenopausal women and its impact on Akt and NF-κB activation. We demonstrated that MCF-7 cells represent a robust cellular model to differentiate Akt pathway activation influenced by the stimulation with sera from obese women, resulting in increased cell viability rates compared to cells stimulated with sera from normal-weight women. In particular, stimulation with sera from postmenopausal obese women showed an increase in the phosphorylation of IR-β and Akt proteins. These effects were reversed after exposure of MCF-7 cells to sera from postmenopausal obese women with insulin resistance with Metformin treatment. Whereas sera from women without insulin resistance affected NF-κB regulation. We further demonstrated that sera from post-Metformin obese women induced an increase in p38 phosphorylation, independent of insulin resistance. Our results suggest a possible mechanism in which obesity-mediated serum molecules could enhance the development of luminal A-breast cancer by increasing Akt activation. Further, we provided evidence that the phenomenon was reversed by Metformin treatment in a subgroup of women.
Keyphrases
- polycystic ovary syndrome
- insulin resistance
- adipose tissue
- metabolic syndrome
- signaling pathway
- weight loss
- induced apoptosis
- breast cancer risk
- type diabetes
- postmenopausal women
- high fat diet induced
- cell proliferation
- high fat diet
- bone mineral density
- cell cycle arrest
- pregnancy outcomes
- pi k akt
- obese patients
- squamous cell carcinoma
- cervical cancer screening
- randomized controlled trial
- cell death
- body mass index
- breast cancer cells
- glycemic control
- inflammatory response
- pregnant women
- young adults
- toll like receptor
- risk factors
- body composition
- study protocol
- stress induced