ObjectiveTo summarize the therapeutic targets of pancreatic cancer (PC). MethodsThe related literatures about the therapeutic targets of PC were reviewed. ResultsPC was one of the most challenging tumor in worldwide, and was characterized as a highly aggressive disease with poor overall prognosis and a high mortality rate. The hallmark of PC was its poor response to radio-and chemo-therapy. Current chemotherapeutic regimens could not provide substantial survival benefit with a clear increase in overall survival. Recently, several new approaches which could significantly improve the clinical outcome of PC had been described, involving signal-transduction pathways, immune response, stroma reaction, and epigenetic changes. ConclusionsMany therapeutic targets are involved in the treatment of PC. As current therapies failed to significantly improve the progression and the survival of PC, new therapeutic approaches and clinical studies are strongly required.
Diabetic retinopathy (DR) is one of the most common microvascular complications of diabetes, characterized by high blindness rates and a severe impact on patients' quality of life. Despite adequate glycemic control, some patients exhibit persistent progression of retinal microvascular damage, known as the "metabolic memory" phenomenon. Studies have revealed that the essence of this phenomenon is the sustained expression of epigenetic reprogramming induced by metabolic stress, in which abnormal mitochondrial DNA (mtDNA) methylation plays a pivotal role. Metabolic abnormalities such as hyperglycemia, hyperhomocysteinemia, and hyperlipidemia can alter mtDNA methylation patterns, triggering cascading pathological processes including oxidative stress, chronic inflammation, and neurovascular network disorders, remodeling mitochondrial energy metabolism, and promoting the evolution of DR from subclinical compensatory stage to irreversible structural damage. Abnormal mtDNA methylation serves as a hallmark of metabolic memory and a core driver of microvascular lesions, providing an important theoretical basis for in-depth analysis of metabolic memory mechanisms and exploration of DR intervention strategies. Current research needs to further elucidate its role in DR. Future efforts require integration of multi-dimensional epigenetic biomarkers, precise intervention approaches, and clinical translational research to advance the early diagnosis and individualized treatment of DR.