BACKGROUND At present,immune checkpoint inhibitors(ICIs)remain the 1st-line therapy me-thod for patients suffering from high microsatellite instability/deficient misma-tch repair metastatic colorectal cancer(mCRC).How...BACKGROUND At present,immune checkpoint inhibitors(ICIs)remain the 1st-line therapy me-thod for patients suffering from high microsatellite instability/deficient misma-tch repair metastatic colorectal cancer(mCRC).However,ICI treatments demon-strate minimal therapeutic efficacy against microsatellite stable(MSS)/proficient mismatch repair(pMMR)CRC.This is mainly because this type of tumor is a“cold tumor”with almost no lymphocyte infiltration.Anti-angiogenic drugs have been found to improve the immune microenvironment by promoting many immune cells to enter the immune microenvironment,thereby exerting anti-tumor effects.AIM To investigate the effects of ICIs combined with bevacizumab monoclonal anti-body on tumor immune cells in MSS/pMMR advanced CRC patients with first-line treatment failure.METHODS A total of 110 MSS/pMMR patients with advanced CRC after first-line treatment failure in the Affiliated Hospital of Qinghai University were enrolled for a ran-domized controlled trial.In short,patients in the experimental group(n=60)were given sintilimab plus bevacizumab for 4 cycles,and those in the control group(n=50)patients were treated with FOLFIRI combined with bevacizumab for 4 cycles.The expression levels of cluster of differentiation(CD)8(+)T cells,tumor-associated macrophages(TAMs),and cancer-associated fibroblasts(CAFs)were comprehensively evaluated to assess the effects of sintilimab combined with bevacizumab on MSS/pMMR advanced CRC sufferers following failure of 1st-line therapy.RESULTS The positive expression rates of CD8(+)T lymphocytes(30%vs 50%),TAMs(23.30%vs 60%),and CAFs(23.30%vs 50%)before and after treatment in both groups exhibited statistical significance(P<0.05).Additionally,the therapeutic effects of both groups(partial remission:26.67%vs 10%;objective response rate:26.70%vs 10%)were significantly different(P<0.05).Although the experimental group showed a higher progression-free survival,median progression-free survival,and disease control rate than the control group,the difference was not statist-ically significant.Moreover,no significant difference in the occurrence rate of drug-related adverse reactions after treatment between the two groups was found(P>0.05).CONCLUSION ICIs in combination with bevacizumab can not only improve the patient’s prognosis but also yield safe and controllable adverse drug reactions in patients suffering from MSS/pMMR advanced CRC after failure to a 1st-line therapy.展开更多
Cholangiocarcinoma(CCA) is a highly aggressive epithelial malignancy still carrying a dismal prognosis, owing to early lymph node metastatic dissemination and striking resistance to conventional chemotherapy. Although...Cholangiocarcinoma(CCA) is a highly aggressive epithelial malignancy still carrying a dismal prognosis, owing to early lymph node metastatic dissemination and striking resistance to conventional chemotherapy. Although mechanisms underpinning CCA progression are still a conundrum, it is now increasingly recognized that the desmoplastic microenvironment developing in conjunction with biliary carcinogenesis, recently renamed tumor reactive stroma(TRS), behaves as a paramount tumor-promoting driver. Indeed, once being recruited, activated and dangerously co-opted by neoplastic cells, the cellular components of the TRS(myofibroblasts, macrophages, endothelial cells and mesenchymal stem cells) continuously rekindle malignancy by secreting a huge variety of soluble factors(cyto/chemokines, growth factors, morphogens and proteinases). Furthermore, these factors are long-term stored within an abnormally remodeled extracellular matrix(ECM), which in turn can deleteriously mold cancer cell behavior. In this review, we will highlight evidence for the active role played by reactive stromal cells(as well as by the TRS-associated ECM) in CCA progression, including an overview of the most relevant TRS-derived signals possibly fueling CCA cell aggressiveness. Hopefully, a deeper knowledge of the paracrine communications reciprocally exchanged between cancer and stromal cells will steer the development of innovative, combinatorial therapies, which can finally hinder the progression of CCA, as well as of other cancer types with abundant TRS, such as pancreatic and breast carcinomas.展开更多
Tumor tissues contain cancer cells,other cellular and non-cellular comp onen ts.Tumor microe nvir onments consist of cancer cells and various types of stromal cells,can cer associated fibroblasts,bone marrow-derived c...Tumor tissues contain cancer cells,other cellular and non-cellular comp onen ts.Tumor microe nvir onments consist of cancer cells and various types of stromal cells,can cer associated fibroblasts,bone marrow-derived cells,en dothelial cells,and hematopoietic cells,mainly tumor-associated macrophages and tumor-infiltrating lymphocytes.Increasing recent evidence has demonstrated that alteration of tumor microenvironments is deeply implicated in tumor progression and metastasis in gastric can cer(GC)patients.Recent in vestigati ons have provided in sights into the molecular mecha ni sms of the interaction between tumor cells and tumor microenvironments.Interactions between cancer cells and their microe nvir onment with cytok ines and microRNA in extracellular vesicles,such as the exosome,can have a substa ntial impact on tumor characteristics.Alterati ons in the tumor microe nvironment may play a crucial role in facilitating the progression of tumor cells and metastasis,as well as the activation of cell signaling pathways,which are associated with GC cell proliferati on and in vasi on by genetic or epigenetic alterations.In this review,significant molecular in sights into the tumor microenvironment,which consist of cancer associated fibroblasts,bone marrow-derived cells,tumor-associated macrophages and tumor-infiltrating lymphocytes;the interactions between cancer cells and their microenvironment;and the clinical impacts of alterations of GC microenvironments will be discussed.展开更多
基金Supported by the 2021 Key Topic of the Qinghai Provincial Health System-Guiding Plan Topic,No.2021-WJZDX-43.
文摘BACKGROUND At present,immune checkpoint inhibitors(ICIs)remain the 1st-line therapy me-thod for patients suffering from high microsatellite instability/deficient misma-tch repair metastatic colorectal cancer(mCRC).However,ICI treatments demon-strate minimal therapeutic efficacy against microsatellite stable(MSS)/proficient mismatch repair(pMMR)CRC.This is mainly because this type of tumor is a“cold tumor”with almost no lymphocyte infiltration.Anti-angiogenic drugs have been found to improve the immune microenvironment by promoting many immune cells to enter the immune microenvironment,thereby exerting anti-tumor effects.AIM To investigate the effects of ICIs combined with bevacizumab monoclonal anti-body on tumor immune cells in MSS/pMMR advanced CRC patients with first-line treatment failure.METHODS A total of 110 MSS/pMMR patients with advanced CRC after first-line treatment failure in the Affiliated Hospital of Qinghai University were enrolled for a ran-domized controlled trial.In short,patients in the experimental group(n=60)were given sintilimab plus bevacizumab for 4 cycles,and those in the control group(n=50)patients were treated with FOLFIRI combined with bevacizumab for 4 cycles.The expression levels of cluster of differentiation(CD)8(+)T cells,tumor-associated macrophages(TAMs),and cancer-associated fibroblasts(CAFs)were comprehensively evaluated to assess the effects of sintilimab combined with bevacizumab on MSS/pMMR advanced CRC sufferers following failure of 1st-line therapy.RESULTS The positive expression rates of CD8(+)T lymphocytes(30%vs 50%),TAMs(23.30%vs 60%),and CAFs(23.30%vs 50%)before and after treatment in both groups exhibited statistical significance(P<0.05).Additionally,the therapeutic effects of both groups(partial remission:26.67%vs 10%;objective response rate:26.70%vs 10%)were significantly different(P<0.05).Although the experimental group showed a higher progression-free survival,median progression-free survival,and disease control rate than the control group,the difference was not statist-ically significant.Moreover,no significant difference in the occurrence rate of drug-related adverse reactions after treatment between the two groups was found(P>0.05).CONCLUSION ICIs in combination with bevacizumab can not only improve the patient’s prognosis but also yield safe and controllable adverse drug reactions in patients suffering from MSS/pMMR advanced CRC after failure to a 1st-line therapy.
文摘Cholangiocarcinoma(CCA) is a highly aggressive epithelial malignancy still carrying a dismal prognosis, owing to early lymph node metastatic dissemination and striking resistance to conventional chemotherapy. Although mechanisms underpinning CCA progression are still a conundrum, it is now increasingly recognized that the desmoplastic microenvironment developing in conjunction with biliary carcinogenesis, recently renamed tumor reactive stroma(TRS), behaves as a paramount tumor-promoting driver. Indeed, once being recruited, activated and dangerously co-opted by neoplastic cells, the cellular components of the TRS(myofibroblasts, macrophages, endothelial cells and mesenchymal stem cells) continuously rekindle malignancy by secreting a huge variety of soluble factors(cyto/chemokines, growth factors, morphogens and proteinases). Furthermore, these factors are long-term stored within an abnormally remodeled extracellular matrix(ECM), which in turn can deleteriously mold cancer cell behavior. In this review, we will highlight evidence for the active role played by reactive stromal cells(as well as by the TRS-associated ECM) in CCA progression, including an overview of the most relevant TRS-derived signals possibly fueling CCA cell aggressiveness. Hopefully, a deeper knowledge of the paracrine communications reciprocally exchanged between cancer and stromal cells will steer the development of innovative, combinatorial therapies, which can finally hinder the progression of CCA, as well as of other cancer types with abundant TRS, such as pancreatic and breast carcinomas.
文摘Tumor tissues contain cancer cells,other cellular and non-cellular comp onen ts.Tumor microe nvir onments consist of cancer cells and various types of stromal cells,can cer associated fibroblasts,bone marrow-derived cells,en dothelial cells,and hematopoietic cells,mainly tumor-associated macrophages and tumor-infiltrating lymphocytes.Increasing recent evidence has demonstrated that alteration of tumor microenvironments is deeply implicated in tumor progression and metastasis in gastric can cer(GC)patients.Recent in vestigati ons have provided in sights into the molecular mecha ni sms of the interaction between tumor cells and tumor microenvironments.Interactions between cancer cells and their microe nvir onment with cytok ines and microRNA in extracellular vesicles,such as the exosome,can have a substa ntial impact on tumor characteristics.Alterati ons in the tumor microe nvironment may play a crucial role in facilitating the progression of tumor cells and metastasis,as well as the activation of cell signaling pathways,which are associated with GC cell proliferati on and in vasi on by genetic or epigenetic alterations.In this review,significant molecular in sights into the tumor microenvironment,which consist of cancer associated fibroblasts,bone marrow-derived cells,tumor-associated macrophages and tumor-infiltrating lymphocytes;the interactions between cancer cells and their microenvironment;and the clinical impacts of alterations of GC microenvironments will be discussed.
