ABSTRACT
BACKGROUND:It has been hypothesized that PANoptosis may be involved in the pathologic process of osteoporosis,but there have been no studies addressing the mechanisms of PANoptosis genes in osteoporosis. OBJECTIVE:To analyze the biological mechanism of PANoptosis regulators in the occurrence and development of osteoporosis. METHODS:The GSE56815 dataset was obtained from the Gene Expression Omnibus database and PANoptosis genes were extracted for differential analysis.The key genes of PANoptosis were screened by random forest tree model to construct a disease risk prediction model.Consensus clustering algorithm,single sample genome enrichment analysis and immune infiltration analysis were used to explore the differences between different PANoptosis molecular subtypes.Herbal drugs that regulate the key genes of PANoptosis were predicted through Coremine medical database,a medical ontology information retrieval platform. RESULTS AND CONCLUSION:Based on the four PANoptosis key genes(CASP1,CASP10,MEFV,and TNF),the diagnostic markers of osteoporosis were determined,and the risk prediction model was constructed and verified.Osteoporosis was divided into two different PANoptosis subtypes(clusters A,B and gene clusters A,B),and the PANoptosis scores of cluster B and gene cluster B were higher than those of cluster A and gene cluster A,respectively.Traditional Chinese drugs such as ginseng which can regulate the key genes of PANoptosis were predicted by the Coremine medical database.
ABSTRACT
Previous studies focused on the unique regulatory mechanisms of different cell death pathways. However, recent studies highlight crosstalk and co-ordination between these pathways and initiate a new cell death process called PANoptosis (pyroptosis, apoptosis, necroptosis). PANoptosis is an inflammatory programmed cell death pathway regulated by the PANoptosome complex with critical features of pyroptosis, and/or necroptosis but cannot be characterized by any of the death modes of pyroptosis, apoptosis or necroptosis alone. By activating the PANoptosis pathway, some triggers like bacterial, viral, and fungal infections can cause death of the host. This review explains the PANoptosis-related routes, regulators and their potential effects on blinding eye diseases.
ABSTRACT
@#Abstract: Cell death is a fundamental biological phenomenon that is essential for the survival and development of organisms. Cell death can be either a spontaneous programmed process by the host or an accidentally triggered process. According to the different signaling pathway activated by various stimulates, programmed cell death exhibits the lytic or non-lytic morphology. For example, apoptosis, a typical non-lytic form of cell death, exhibits cell shrinkage and induces the formation of apoptotic bodies. Pyroptosis mediated by cysteine-containing aspartate-specific protease-1/11 (caspase-1/11) and necroptosis can induce inflammatory reactions and promote cell lysis to release inflammatory cytokines via triggering the pore-forming mechanism of the cell membrane, representing a typical modes of lytic cell death. In addition, the release of reactive oxygen species caused by the damaged mitochondria may further trigger ferroptosis during the pathogen infection. Programmed cell death can play an immune defensive role by eliminating infected cells and intracellular pathogens and stimulating the innate immune response through the resulting cell corpses. Here, we discuss the molecular mechanisms of five programmed cell death pathways: apoptosis, pyroptosis, ferroptosis, necroptosis and PANoptosis. We describe their roles in the innate immune defense against bacterial infections and give a brief statement of the interactions between the different programmed cell death, hoping to provide new insights for in-depth study of the pathogenic mechanisms of infectious diseases.
ABSTRACT
In recent years, with the progress of research on the molecular mechanism of cell death, it has been discovered that there are many new types of programmed cell death, including non-apoptotic (10 types) and apoptotic (2 types), which are widely involved in the pathogenesis of infectious diseases and tumors. It is also a frontier research topic and provides new ideas for disease prevention and treatment. This article reviews the published literature on programmed cell death, focusing on the characteristics of cell necrosis, apoptosis, pyroptosis, ferroptosis, neutrophil inflammatory cell death (NETosis), cuproptosis, and widespread apoptosis (PANoptosis), as well as their relationship with infectious diseases.