Immunological evasion is one of the defining characteristics of cancers,as the immune modification of an immune checkpoint(IC)confers immune evasion capabilities to tumor cells.Multiple ICs,such as programmed cell dea...Immunological evasion is one of the defining characteristics of cancers,as the immune modification of an immune checkpoint(IC)confers immune evasion capabilities to tumor cells.Multiple ICs,such as programmed cell death protein-1(PD-1)and cytotoxic T-lymphocyte-associated antigen-4(CTLA-4),can bind to their respective receptors and reduce tumor immunity in a variety of ways,including blocking immune cell activation signals.IC blockade(ICB)therapies targeting these checkpoint molecules have demonstrated significant clinical benefits.This is because antibody-based IC inhibitors and a variety of specific small molecule inhibitors can inhibit key oncogenic signaling pathways and induce durable tumor remission in patients with a variety of cancers.Deciphering the roles and regulatory mechanisms of these IC molecules will provide crucial theoretical guidance for clinical treatment.In this review,we summarize the current knowledge on the functional and regulatory mechanisms of these IC molecules at multiple levels,including epigenetic regulation,transcriptional regulation,and post-translational modifications.In addition,we provide a summary of the medications targeting various nodes in the regulatory pathway,and highlight the potential of newly identified IC molecules,focusing on their potential implications for cancer diagnostics and immunotherapy.展开更多
This review focuses on the development of hyperglycemia arising from widely used cancer therapies spanning four drug classes.These groups of medications were selected due to their significant association with new onse...This review focuses on the development of hyperglycemia arising from widely used cancer therapies spanning four drug classes.These groups of medications were selected due to their significant association with new onset hyperglycemia,or of potentially severe clinical consequences when present.These classes include glucocorticoids that are frequently used in addition to chemotherapy treatments,and the antimetabolite class of 5-fluorouracil-related drugs.Both of these classes have been in use in cancer therapy since the 1950s.Also considered are the phosphatidyl inositol-3-kinase(PI3K)/AKT/mammalian target of rapamycin(mTOR)-inhibitors that provide cancer response advantages by disrupting cell growth,proliferation and survival signaling pathways,and have been in clinical use as early as 2007.The final class to be reviewed are the monoclonal antibodies selected to function as immune checkpoint inhibitors(ICIs).These were first used in 2011 for advanced melanoma and are rapidly becoming widely utilized in many solid tumors.For each drug class,the literature has been reviewed to answer relevant questions about these medications related specifically to the characteristics of the hyperglycemia that develops with use.The incidence of new glucose elevations in euglycemic individuals,as well as glycemic changes in those with established diabetes has been considered,as has the expected onset of hyperglycemia from their first use.This comparison emphasizes that some classes exhibit very immediate impacts on glucose levels,whereas other classes can have lengthy delays of up to 1 year.A comparison of the spectrum of severity of hyperglycemic consequences stresses that the appearance of diabetic ketoacidosis is rare for all classes except for the ICIs.There are distinct differences in the reversibility of glucose elevations after treatment is stopped,as the mTOR inhibitors and ICI classes have persistent hyperglycemia long term.These four highlighted drug categories differ in their underlying mechanisms driving hyperglycemia,with clinical presentations ranging from potent yet transient insulin resistant states[type 2 diabetes mellitus(T2DM)-like]to rare permanent insulin-deficient causes of hyperglycemia.Knowledge of the relative incidence of new onset hyperglycemia and the underlying causes are critical to appreciate how and when to best screen and treat patients taking any of these cancer drug therapies.展开更多
基金supported by the National Key Research and Development Program of China(No.2021YFC2700903)the National Natural Science Foundation of China(Nos.81672791 and 81872300)+2 种基金the Zhejiang Provincial Natural Science Fund for Distinguished Young Scholars of China(No.LR18C060002)the Huadong Medicine Joint Funds of the Zhejiang Provincial Natural Science Foundation of China(No.LHDMY22H160006)the ZJU-QILU Joint Research Institute and Qilu Group.
文摘Immunological evasion is one of the defining characteristics of cancers,as the immune modification of an immune checkpoint(IC)confers immune evasion capabilities to tumor cells.Multiple ICs,such as programmed cell death protein-1(PD-1)and cytotoxic T-lymphocyte-associated antigen-4(CTLA-4),can bind to their respective receptors and reduce tumor immunity in a variety of ways,including blocking immune cell activation signals.IC blockade(ICB)therapies targeting these checkpoint molecules have demonstrated significant clinical benefits.This is because antibody-based IC inhibitors and a variety of specific small molecule inhibitors can inhibit key oncogenic signaling pathways and induce durable tumor remission in patients with a variety of cancers.Deciphering the roles and regulatory mechanisms of these IC molecules will provide crucial theoretical guidance for clinical treatment.In this review,we summarize the current knowledge on the functional and regulatory mechanisms of these IC molecules at multiple levels,including epigenetic regulation,transcriptional regulation,and post-translational modifications.In addition,we provide a summary of the medications targeting various nodes in the regulatory pathway,and highlight the potential of newly identified IC molecules,focusing on their potential implications for cancer diagnostics and immunotherapy.
文摘This review focuses on the development of hyperglycemia arising from widely used cancer therapies spanning four drug classes.These groups of medications were selected due to their significant association with new onset hyperglycemia,or of potentially severe clinical consequences when present.These classes include glucocorticoids that are frequently used in addition to chemotherapy treatments,and the antimetabolite class of 5-fluorouracil-related drugs.Both of these classes have been in use in cancer therapy since the 1950s.Also considered are the phosphatidyl inositol-3-kinase(PI3K)/AKT/mammalian target of rapamycin(mTOR)-inhibitors that provide cancer response advantages by disrupting cell growth,proliferation and survival signaling pathways,and have been in clinical use as early as 2007.The final class to be reviewed are the monoclonal antibodies selected to function as immune checkpoint inhibitors(ICIs).These were first used in 2011 for advanced melanoma and are rapidly becoming widely utilized in many solid tumors.For each drug class,the literature has been reviewed to answer relevant questions about these medications related specifically to the characteristics of the hyperglycemia that develops with use.The incidence of new glucose elevations in euglycemic individuals,as well as glycemic changes in those with established diabetes has been considered,as has the expected onset of hyperglycemia from their first use.This comparison emphasizes that some classes exhibit very immediate impacts on glucose levels,whereas other classes can have lengthy delays of up to 1 year.A comparison of the spectrum of severity of hyperglycemic consequences stresses that the appearance of diabetic ketoacidosis is rare for all classes except for the ICIs.There are distinct differences in the reversibility of glucose elevations after treatment is stopped,as the mTOR inhibitors and ICI classes have persistent hyperglycemia long term.These four highlighted drug categories differ in their underlying mechanisms driving hyperglycemia,with clinical presentations ranging from potent yet transient insulin resistant states[type 2 diabetes mellitus(T2DM)-like]to rare permanent insulin-deficient causes of hyperglycemia.Knowledge of the relative incidence of new onset hyperglycemia and the underlying causes are critical to appreciate how and when to best screen and treat patients taking any of these cancer drug therapies.
