Chao‐Peng Shao scite author profile

AimClinical resistance is a complex phenomenon in major human cancers involving multifactorial mechanisms, and hypoxia is one of the key components that affect the cellular expression program and lead to therapy resistance. The present study aimed to summarize the role of hypoxia in cancer therapy by regulating the tumor microenvironment (TME) and to highlight the potential of hypoxia-targeted therapy.MethodsRelevant published studies were retrieved from PubMed, Web of Science, and Embase using keywords such as hypoxia, cancer therapy, resistance, TME, cancer, apoptosis, DNA damage, autophagy, p53, and other similar terms.ResultsRecent studies have shown that hypoxia is associated with poor prognosis in patients by regulating the TME. It confers resistance to conventional therapies through a number of signaling pathways in apoptosis, autophagy, DNA damage, mitochondrial activity, p53, and drug efflux.ConclusionHypoxia targeting might be relevant to overcome hypoxia-associated resistance in cancer treatment.

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Molecular background of Rh D‐positive, D‐negative, D_el and weak D phenotypes in Chinese

Shao

et al. 2002

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Role of hypoxia-induced exosomes in tumor biology

et al. 2018

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PurposeHypoxia is a major regulator of angiogenesis and always influences the release of exosomes in various types of tumors. The present review aimed to assess the role of hypoxia-induced exosomes in the tumor biology.MethodsThe relevant publications were retrieved from PubMed using keywords such as hypoxia, exosome, extracellular vesicles, tumor, cancer, and other similar terms.ResultsRecent studies have shown that cancer cells produce more exosomes under hypoxic conditions than do parental cells under normoxic conditions. The secretion and function of exosomes could be influenced by hypoxia in various types of cancer. Hypoxia-induced exosomes play critical roles in tumor angiogenesis, invasion, metastasis, and the immune system.ConclusionsThese findings provide new insights into the complex networks underlying cellular and genomic regulation in response to hypoxia and might provide novel and specific targets for future therapies.

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Exosomal miRNAs and miRNA dysregulation in cancer-associated fibroblasts

et al. 2017

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PurposeThe present review aimed to assess the role of exosomal miRNAs in cancer-associated fibroblasts (CAFs), normal fibroblasts (NFs), and cancer cells. The roles of exosomal miRNAs and miRNA dysregulation in CAF formation and activation were summarized.MethodsAll relevant publications were retrieved from the PubMed database, with key words such as CAFs, CAF, stromal fibroblasts, cancer-associated fibroblasts, miRNA, exosomal, exosome, and similar terms.ResultsRecent studies have revealed that CAFs, NFs, and cancer cells can secrete exosomal miRNAs to affect each other. Dysregulation of miRNAs and exosomal miRNAs influence the formation and activation of CAFs. Furthermore, miRNA dysregulation in CAFs is considered to be associated with a secretory phenotype change, tumor invasion, tumor migration and metastasis, drug resistance, and poor prognosis.ConclusionsFinding of exosomal miRNA secretion provides novel insights into communication among CAFs, NFs, and cancer cells. MicroRNA dysregulation is also involved in the whole processes of CAF formation and function. Dysregulation of miRNAs in CAFs can affect the secretory phenotype of the latter cells.

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Chao‐Peng Shao

Role of hypoxia in cancer therapy by regulating the tumor microenvironment

Molecular background of Rh D‐positive, D‐negative, D_el and weak D phenotypes in Chinese

Role of hypoxia-induced exosomes in tumor biology

Exosomal miRNAs and miRNA dysregulation in cancer-associated fibroblasts

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Chao‐Peng Shao

Role of hypoxia in cancer therapy by regulating the tumor microenvironment

Molecular background of Rh D‐positive, D‐negative, Del and weak D phenotypes in Chinese

Role of hypoxia-induced exosomes in tumor biology

Exosomal miRNAs and miRNA dysregulation in cancer-associated fibroblasts

Contact Info

Product

Resources

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Molecular background of Rh D‐positive, D‐negative, D_el and weak D phenotypes in Chinese