The dysregulation of cyclin-dependent kinase 12(CDK12),which may result from genomic alterations or modulation by upstream effectors,is implicated in cancer oncogenesis and progression.CDK12 over-expression or activation is sufficient to induce tumor initiation,recurrence,and therapeutic resistance.However,CDK12 may also exert tumor-suppressive functions in a context-dependent manner.Therefore,caution is warranted when targeting CDK12 in future clinical trials.A comprehensive elucidation of the dual roles and underlying mechanisms of CDK12 in carcinogenesis is urgently needed to advance pre-cision oncology.This review provides an overview of the current understanding of the dysregulation and biological roles of CDK12 in cancer.Subsequently,we systematically summarize the functions and mechanisms of the oncogenic and tumor-suppressive roles of CDK12 in different contexts.Finally,we discuss the potential of CDK12 as a novel therapeutic target and its implications in clinical oncology,offering insights into future directions for innovative cancer treatment strategies.

Objective To investigate the regulation of synaptic plasticity by cannabinoid receptor 1(CB1R)and its effects on autism spectrum disorder(ASD)-like behavior.Methods CB1R-knockout(KO)mice and valproic acid(VPA)-induced ASD model mice(VPA mice)were used as study subjects.Behavioral experiments were used to assess the effects of CB1R on ASD-like behavior in mice,neuronal structural integrity and dendritic density were detected by microtubule-associated protein 2(MAP2)staining experiments,and the expression of synapse-associated proteins was detected by Western blot,to assess the effects of CB1R on synaptic plasticity.Results Behavioral result showed that VPA mice demonstrated significant ASD-like behavior,while CB1R-/-mice spent a significantly smaller proportion of residence time in the central region of the open field(P＜0.0001),showed significant increases in the number of marbles buried and self-grooming time(P＜0.01),significantly less time spent socializing with unfamiliar mice 2 and exploring unfamiliar objects(P＜0.001),and significantly more time exploring old objects(P＜0.05).The relative dwelling time was significantly reduced in CB1R+/-mice(P＜0.001),and the number of marbles buried and self-grooming time were significantly increased(P＜0.05).Synaptic plasticity assays revealed significant synaptic plasticity impairment in VPA mice.Hippocampal MAP2-positive neuron densities were significantly reduced in CB1R-/-and CB1R+/-mice,and expression levels of synapsin-1 were significantly increased(P＜0.05).Conclusions CB1R KO leads to ASD-like behavior such as anxiety and repetitive stereotyped behavior,social and cognitive impairments,as well as neuronal damage,dendritic dysplasia and disrupted synaptic protein expression in mice,suggesting that CB1R is involved in regulating synaptic plasticity as a pathological mechanism for the development of ASD-like behavior.

The dysregulation of cyclin-dependent kinase 12 (CDK12), which may result from genomic alterations or modulation by upstream effectors, is implicated in cancer oncogenesis and progression. CDK12 overexpression or activation is sufficient to induce tumor initiation, recurrence, and therapeutic resistance. However, CDK12 may also exert tumor-suppressive functions in a context-dependent manner. Therefore, caution is warranted when targeting CDK12 in future clinical trials. A comprehensive elucidation of the dual roles and underlying mechanisms of CDK12 in carcinogenesis is urgently needed to advance precision oncology. This review provides an overview of the current understanding of the dysregulation and biological roles of CDK12 in cancer. Subsequently, we systematically summarize the functions and mechanisms of the oncogenic and tumor-suppressive roles of CDK12 in different contexts. Finally, we discuss the potential of CDK12 as a novel therapeutic target and its implications in clinical oncology, offering insights into future directions for innovative cancer treatment strategies.

OBJECTIVE To explore the effects of Polygala tenuifolia compatibility on toxicity， anti-inflammatory and analgesic efficacy of sand-ironing Strychnos nux-vomica （SS）. METHODS The preparation of SS single decoction， SS-P. tenuifolia core-removed （PC） （1∶2.5） or （1∶5） combined decoction， and SS-PC （1∶5） mixture were carried out to investigate their median lethal dose （LD50）. Using aspirin as positive control， the number of writhing movements， analgesic rate， pain latency， ear swelling degree and inflammation inhibition rate induced by the above-mentioned medicinal liquids in mice were compared. The contents of the active and toxic components， strychnine and brucine， in the above-mentioned medicinal liquids were also determined. RESULTS The LD50 values of SS single decoction， SS-PC （1∶2.5） combined decoction， SS-PC （1∶5） combined decoction and SS- PC （1∶5） mixture were 302.00， 614.47， 1 445.44 and 1 778.28 mg/kg， respectively. Compared with control group， the number of writhing movements and ear swelling degree in the mice of the above-mentioned medicinal liquid groups were reduced or decreased significantly （P＜0.05 or P＜0.01）； pain latency [at 90 and 120 minutes in the SS single decoction group， at 60 and 90 minutes in the SS-PC （1∶2.5） combined decoction group， and at 60，90， 120 minutes in the SS-PC （1∶5） combined decoction group and SS-PC （1∶5） mixture group] was significantly prolonged （P＜0.05 or P＜0.01）； analgesic rates of the respective medicinal liquids were 39.30%， 70.87%， 80.00% and 82.46%， and inflammation inhibition rates were 38.08%，TD 57.89%， 76.47% and 50.46%； analgesic and anti-inflammatory effects of combined decoction and mixture were generally better than those of the single decoction （P＜0.05 or P＜0.01）. In the above-mentioned four medicinal liquids， the total contents of strychnine were 0.71%， 0.42%， 0.47% and 0.64%， and the total contents of brucine were 0.88%， 0.63%， 0.57% and 0.88%， respectively. CONCLUSIONS The combination of P. tenuifolia can reduce the toxicity of SS and enhance its anti-inflammatory and analgesic effects. Moreover， there is a tendency for the toxicity-reducing and efficacy-enhancing effects to increase with the increasing dosage of P. tenuifolia. Additionally， the combined decoction of SS and P. tenuifolia can reduce the contents of the active and toxic components， strychnine and brucine， in SS.

Objective To investigate the regulation of synaptic plasticity by cannabinoid receptor 1(CB1R)and its effects on autism spectrum disorder(ASD)-like behavior.Methods CB1R-knockout(KO)mice and valproic acid(VPA)-induced ASD model mice(VPA mice)were used as study subjects.Behavioral experiments were used to assess the effects of CB1R on ASD-like behavior in mice,neuronal structural integrity and dendritic density were detected by microtubule-associated protein 2(MAP2)staining experiments,and the expression of synapse-associated proteins was detected by Western blot,to assess the effects of CB1R on synaptic plasticity.Results Behavioral result showed that VPA mice demonstrated significant ASD-like behavior,while CB1R-/-mice spent a significantly smaller proportion of residence time in the central region of the open field(P＜0.0001),showed significant increases in the number of marbles buried and self-grooming time(P＜0.01),significantly less time spent socializing with unfamiliar mice 2 and exploring unfamiliar objects(P＜0.001),and significantly more time exploring old objects(P＜0.05).The relative dwelling time was significantly reduced in CB1R+/-mice(P＜0.001),and the number of marbles buried and self-grooming time were significantly increased(P＜0.05).Synaptic plasticity assays revealed significant synaptic plasticity impairment in VPA mice.Hippocampal MAP2-positive neuron densities were significantly reduced in CB1R-/-and CB1R+/-mice,and expression levels of synapsin-1 were significantly increased(P＜0.05).Conclusions CB1R KO leads to ASD-like behavior such as anxiety and repetitive stereotyped behavior,social and cognitive impairments,as well as neuronal damage,dendritic dysplasia and disrupted synaptic protein expression in mice,suggesting that CB1R is involved in regulating synaptic plasticity as a pathological mechanism for the development of ASD-like behavior.

Super-enhancers (SEs) are large clusters of enhancers located near the promoter and are necessary to determine the identity of cancer cells. The alterations of super-enhancers can cause dysregulation of the transcriptional program, which resulted in tumor cells being addicted to certain transcriptional programs. Tumor metastasis is the leading cause of death in cancer. Recently, SEs have been demonstrated to facilitate tumor metastasis by regulating lncRNA generation, tumor microenvironment, epithelial-mesenchymal transition, and cancer stem cells. In this review, the characteristics of SEs, the relationship between SEs and tumor metastasis, and inhibitors against SEs are summarized to provide a reference for the relevant mechanism of SEs regulating tumor metastasis and provide new perspectives for the diagnosis and treatment of patients with cancer metastasis.