Qiu Guo-bin scite author profile

Breast cancer (BC) is one of the most widespread malignancies in women worldwide. Breast cancer is mainly classified into a few key molecular subtypes in accordance with hormone and growth factor receptor expression, etc. In spite of numerous advances in the remedy of breast cancer, the development of metastatic disease remains an untreatable and repeated basis of cancer death for women. Preclinical and clinical studies of immunotherapy in cancer remedy have been in progress for the past quite a few decades by an effort to accelerate, augment, and modulate the immune system to spot and devastate cancer cells. Advancement of cancer immunotherapy is rapidly increasing with eminent and most interesting therapy compared to other therapy like targeted therapy, cytotoxic chemotherapy, radiation as well as surgery. Cancer immunotherapy, also known as biological therapy, which denotes the controlling and by means of the patient's own immune system to goal the cancer cells rather than using an extrinsic therapy. In that way, focusing of cancer immunotherapy developing mediators that stimulates or enhances the immune system's recognition and destroying the cancer cells. This review describes a holistic outlook and deeper understanding of the biology of immunotherapy within the system of tumor microenvironment of breast cancer that improve clinical research and constructive impact on the study conclusion.

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Abies spectabilis-Mediated Silver Nanoparticles Inhibits Cell Growth and Promotes Apoptosis in Breast Cancer MCF-7 Cells

Ren

Hao

Yan

et al. 2022

J Environ Pathol Toxicol Oncol

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A Second-Order Moment Turbulence Model for Power Law Fluid With Particles

et al. 2007

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10H‐3,6‐Diazaphenothiazines triggered the mitochondrial‐dependent and cell death receptor‐dependent apoptosis pathways and further increased the chemosensitivity of MCF‐7 breast cancer cells via inhibition of AKT1 pathways

Ren

Hao

Yang

et al. 2020

J Biochem & Molecular Tox

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Breast cancer is one of the leading causes of death in cancer categories, followed by lung, colorectal, and ovarian among the female gender across the world. 10H‐3,6‐diazaphenothiazine (PTZ) is a thiazine derivative compound that exhibits many pharmacological activities. Herein, we proceed to investigate the pharmacological activities of PTZ toward breast cancer MCF‐7 cells as a representative in vitro breast cancer cell model. The PTZ exhibited a proliferation inhibition (IC50 = 0.895 µM) toward MCF‐7 cells. Further, cell cycle analysis illustrated that the S‐phase checkpoint was activated to achieve proliferation inhibition. In vitro cytotoxicity test on three normal cell lines (HEK293 normal kidney cells, MCF‐10A normal breast cells, and H9C2 normal heart cells) demonstrated that PTZ was more potent toward cancer cells. Increase in the levels of reactive oxygen species results in polarization of mitochondrial membrane potential (ΔΨm), together with suppression of mitochondrial thioredoxin reductase enzymatic activity suggested that PTZ induced oxidative damages toward mitochondria and contributed to improved drug efficacy toward treatment. The RT2 PCR Profiler Array (human apoptosis pathways) proved that PTZ induced cell death via mitochondria‐dependent and cell death receptor‐dependent pathways, through a series of modulation of caspases, and the respective morphology of apoptosis was observed. Mechanistic studies of apoptosis suggested that PTZ inhibited AKT1 pathways resulting in enhanced drug efficacy despite it preventing invasion of cancer cells. These results showed the effectiveness of PTZ in initiation of apoptosis, programmed cell death, toward highly chemoresistant MCF‐7 cells, thus suggesting its potential as a chemotherapeutic drug.

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Qiu Guo-bin

An efficient or methodical review of immunotherapy against breast cancer

Abies spectabilis-Mediated Silver Nanoparticles Inhibits Cell Growth and Promotes Apoptosis in Breast Cancer MCF-7 Cells

A Second-Order Moment Turbulence Model for Power Law Fluid With Particles

10H‐3,6‐Diazaphenothiazines triggered the mitochondrial‐dependent and cell death receptor‐dependent apoptosis pathways and further increased the chemosensitivity of MCF‐7 breast cancer cells via inhibition of AKT1 pathways

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