Familial idiopathic basal ganglia calcification (IBGC) is a genetic condition with a wide spectrum of neuropsychiatric symptoms, including parkinsonism and dementia. Here, we identified mutations in SLC20A2, encoding the type III sodium-dependent phosphate transporter 2 (PiT2), in IBGC-affected families of varied ancestry, and we observed significantly impaired phosphate transport activity for all assayed PiT2 mutants in Xenopus laevis oocytes. Our results implicate altered phosphate homeostasis in the etiology of IBGC.
Increasing evidence shows that long noncoding RNAs (lncRNAs) have important roles in the regulation of multiple cellular processes, including cell division, cell growth, and apoptosis, as well as cancer metastasis and neurological disease progression; however, the mechanism of how lncRNAs regulate these processes is not well established. In this study, we demonstrated that downregulating the expression of the lncRNA nuclear paraspeckle assembly transcript 1 (NEAT1) in breast cancer cells inhibited cell growth and induced cell apoptosis. In addition, the RNA-binding protein fused in sarcoma/translocated in liposarcoma (FUS/TLS) physically interacted with NEAT1, and reducing the expression of FUS/TLS also induced cell apoptosis. Multiple miRNAs were identified as regulators of NEAT1, but only overexpression of miR-548ar was able to decrease NEAT1 expression and promote apoptosis. These results indicate a novel interaction between NEAT1, miR-548ar-3p, and FUS and their role in the regulation of breast cancer cell apoptosis.
SignificanceTriple-negative breast cancer (TNBC) is responsible for significant mortality among breast cancer subtypes, with its treatment largely unsuccessful due to ineffective targeted therapies. Our bioinformatics analysis demonstrates a unique alternative splicing pattern in TNBC compared with those of other breast cancers. In analyzing the underlying mechanism of the distinct alternative splicing profile, TDP43, a critical gene previously implicated in neurodegenerative disease, is found to promote TNBC progression. Mechanistically, TDP43 regulates extensive alternative splicing events, including downstream gene PAR3, by forming a complex with SRSF3 to regulate alternative splicing events coordinately. Splicing factors TDP43 and SRSF3, which are likely responsible for the unique alternative splicing, could serve as potential targets for TNBC therapy.
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