Project description:Bisphenol A (BPA), a widely used endocrine disruptor, has been implicated in cognitive impairment via epigenetic machinery. N6-methyladenosine (m6A) has recently emerged as a new epigenetic factor that negatively influencing cognition, but the role of m6A in BPA induced cognitive deficits has not been explored yet.Here, m6A sequencing in total RNA of neurons after BPA exposure was performed and compare.

Project description:YTHDF3 modulates the stability of Cbln1 mRNA by recruiting BTG2 and is implicated in the impaired cognition of prenatal hypoxia offspring

Project description:Oxaliplatin as a first-line drug frequently causes the chemo-resistance on colorectal cancer (CRC). N6-methyladenosine (m6A) methylation has been largely acknowledged in multiple biological functions. However, the molecular mechanisms underlying the m6A methylation in modulating anticancer drug resistance in CRC are still obscure. In present study, RIP-seq was conducted to investigate the occupancy of N6-methyladenosine RNA binding protein 3 (YTHDF3) served as “readers” that can recognize m6A modification site in HCT116 cells with oxaliplatin resistance (HCT116R). Then, YTHDF3 was knockdown by siRNA in HCT116 cells with oxaliplatin resistance, and RIP-seq was further conducted to investigate m6A methylation of HCT116, HCT116R and HCT116R cells with YTHDF3 knockdown.

Project description:Plasma EV proteomic profiling from patients with typical PD combined with different degrees of cognitive impairments (PD with Dementia, PD with mild cognitive impairment, and PD with normal cognition), atypical Parkinsonism represented by Multiple System Atrophy, and healthy individuals

Project description:Neural imaging, genetics, and circulating biomarkers are being developed to differentiate normal aging from diseases that affect cognition. The blood based biomarkers, such as plasma exosome could provide a simple and relatively inexpensive means for tracking the progression of cognitive decline and effectiveness of treatments, as well as providing information on mechanism for cognitive impairment.

Project description:It is important to maintain cognitive integrity during underwater operations, which may also trigger cognitive alterations. Cognitive effect of underwater operations and the underlying mechanism remain elusive. Here, we found a single underwater operation affects cognition in a time-dependent model. Prolonged exposure elicits significant cognitive impairment and hippocampal dysfunction, which was accompanied by activation of microglia and upregulation of pro-inflammatory cytokines. RNA-sequencing supported the involvement of neuroinflammation and indicated the critical role of CCR3. Knockdown of CCR3 significantly rescued cognitive impairment and hippocampal dysfunction. Furthermore, the upregulation of pro-inflammatory cytokines was also reversed. Mechanistically, CCR3 knockdown switched the activated microglia from a pro-inflammatory to neuroprotective phenotype. Taken together, these results highlighted the time-dependent effects of a single underwater operation on cognitive function. Knocking down CCR3 can attenuate neuroinflammation by regulating polarization of activated microglia, thereby alleviating prolonged underwater operation-induced cognitive impairment.

Project description:Elderly patients are apt to cognitive impairment and memory loss after surgical operations. This perioperative cerebral damage named postoperative cognitive dysfunction (POCD) is profoundly affected by anesthesia. N6-methyladenosine (m6A) RNA methylation as a widely-studied epigenetic modification to regulate gene expression, however, is never studied in POCD. Initially, fifty 40-week-old outbred female C57BL/6 mice were conducted Morris water maze test by EthoVision XT working system (Noldus, Netherlands) as manufacturer’s instructions. The escaping latent period of each mouse were recorded. Then Thirty mice were randomly selected and given 2% sevoflurane for 4 h in an automatic anesthetic chamber with size of 24 cm*12 cm*18 cm. After natural resuscitation, POCD and non-POCD mice were picked up based on the dynamics of escaping latent period. The other twenty mice received normal air were treated as negative control. Hippocampus were conducted RIP-seq for investigating m6A RNA methylation.

Project description:This study investigated the epigenetic mark of DNA methylation in the medial prefrontal cortex (mPFC) as a function of age and cognition. Young and aged F344 rats were characterized in a cognitive flexibility task, set shifting, and whole-genome bisulfite sequencing was performed in an Illumina system. The results indicate that differential methylation was linked to the expression of genes within functional categories which may mediate impaired cognition in aging. Differences in aging included hypermethylation of genes linked to synaptic function and GTPase activity. Further, age-related cognitive flexibility impairment was correlated to hypermethylation of synaptic, postsynaptic density and ion channel activity genes.

Project description:While cognitive impairment is common in peripheral diseases such as chronic kidney disease (CKD), mechanistic insights and effective therapies are lacking. Here, we show that microglial potassium (K+) dyshomeostasis induces noncanonical IL-1β maturation and neuronal dysfunction via IL-1R signaling in CKD. Despite inflammasome activation in the brain, microglial caspase-1 deficiency does not improve inflammation and cognition in CKD mice. Noncanonical IL-1β maturation in microglia is mediated by the cathepsin C–caspase-8 pathway. Restoring K+ homeostasis in microglia or genetically inhibiting neuronal IL-1R1 signaling abolishes CKD-induced cognitive impairment. Microglial K+ dyshomeostasis and noncanonical microglial IL-1β maturation may therefore be druggable targets in some forms of cognitive impairment. These insights identify a new intercellular microglia–neuron crosstalk and identify potential therapeutic targets to combat inflammasome-induced neuronal dysfunction.

Project description:m6A and YTHDF1, YTHDF2, YTHDF3 mapping of IAV RNA with PAR-CLIP and pA-m6A-seq