The role and advance of ubiquitination and deubiquitination in depression pathogenesis and treatment.

Depression is a common neuropsychiatric disease that is characterized by long-term, repeated low mood, pain and despair, pessimism, and even suicidal tendencies. Increasing evidence has shown that ubiquitination and deubiquitination are closely related to the occurrence of depression, including pathological morphogenesis, neuroplasticity, synaptic transmission, neuroinflammation, and so forth. The development of depression is regulated by intracellular proteins that undergo various posttranslational modifications, including ubiquitination, which falls under the epigenetics category. Although there have been studies and reviews of literature on epigenetics and depression, a systematic review of ubiquitination modification and depression has not been reported. In addition, with the deepening of research on depression and ubiquitination, the development of drugs targeting the ubiquitin system has gradually increased, but it is still not mature, so there is an urgent need to find new antidepressant drug targets. E3 ubiquitin ligases and deubiquitinating enzymes can regulate the occurrence and development of depression in a variety of ways, which may be a direction for the treatment of depression in the future. Therefore, this review describes the latest progress of ubiquitination and deubiquitination in the regulation of depression, summarizes the published signal pathways of ubiquitination and deubiquitination involved in depression, emphasizes the targets and mechanisms of E3 ubiquitin ligases and deubiquitinase in the regulation of depression, and further discusses the therapeutic targets of targeting ubiquitination modification systems to regulate depression.

miR-504 knockout regulates tumor cell proliferation and immune cell infiltration to accelerate oral cancer development.

miR-504 plays a pivotal role in the progression of oral cancer. However, the underlying mechanism remains elusive in vivo. Here, we find that miR-504 is significantly down-regulated in oral cancer patients. We generate miR-504 knockout mice (miR-504-/-) using CRISPR/Cas9 technology to investigate its impact on the malignant progression of oral cancer under exposure to 4-Nitroquinoline N-oxide (4NQO). We show that the deletion of miR-504 does not affect phenotypic characteristics, body weight, reproductive performance, and survival in mice, but results in changes in the blood physiological and biochemical indexes of the mice. Moreover, with 4NQO treatment, miR-504-/- mice exhibit more pronounced pathological changes characteristic of oral cancer. RNA sequencing shows that the differentially expressed genes observed in samples from miR-504-/- mice with oral cancer are involved in regulating cell metabolism, cytokine activation, and lipid metabolism-related pathways. Additionally, these differentially expressed genes are significantly enriched in lipid metabolism pathways that influence immune cell infiltration within the tumor microenvironment, thereby accelerating tumor development progression. Collectively, our results suggest that knockout of miR-504 accelerates malignant progression in 4NQO-induced oral cancer by regulating tumor cell proliferation and lipid metabolism, affecting immune cell infiltration.