As an outward,voltage-dependent potassium channel,M type channel is crucial in the regulation of neuronal excitability;it is modulated by a variety of factors in vivo and its dysfunction often results in neuronal system diseases.Great efforts have been made to elucidate the mechanism underlying M channel modulation since its discovery decades ago.It is generally accepted that the Phospholipase C(PLC) signaling pathway plays a significant role in the M channel modulation.This review highlights the relationship between PLC signaling pathway and M channel modulation,as well as some recent progresses in the research of this field.

Receptor tyrosine kinase(RTK),a membrane receptor superfamily with intrinsic protein tyrosine kinase activity,has many members and complicated signal transduction pathways.Activation of RTKs can trigger a series of signal transduction pathways and play essential roles in modulating cell growth,proliferation,differentiation and metabolism through influencing gene transcription and expression.Activation of RTK can also rapidly modulate some cellular functions including the modulation of ion channels.Potassium channels play a critical role in stabilization of membrane potential and regulation of cellular excitability.This review highlights the rapid modulation of potassium channels by RTKs and reviews the recent progress in related research.

Aim To study the characteristics of KCNQ2/3 potassium channel expressed in CHO cells and its modulation by M_1 receptor.Methods KCNQ2 and KCNQ3 potassium channels and M_1 receptor were co-expressed in CHO cells.Whole cell patch-clamp techniques was used to observe the characteristics of KCNQ2/3 current,its modulation by the M_1 receptor,and the effects of the common potassium channel blockers.Results KCNQ2/3 current recorded in CHO cells was a slow-activation low-threshold non-inactivating,voltage-dependent outward potassium current.KCNQ2/3 current was elicited at about-60 mV,V_(1/2)(-26.8?1.2) mV and the deactivation current fitted two exponential function,with ?_(fast) of 101ms and ?_(slow) of 309 ms.The channel was not sensitive to common pharmacological blockers such as 4-AP,Ba~(2+) and TEA,but was inhibited significantly by linopirdine,with a IC_(50) of(6.5?0.83) ?mol?L~(-1).Acetylcholine suppressed the KCNQ2/3 current reversibly via M_1 receptor,with a IC_(50) of(0.7?0.05) ?mol?L~(-1).Conclusion KCNQ2 and KCNQ3 channels are the molecular basis of M-current observed in neuronal cells.KCNQ2/Q3 current expressed in CHO cells has similar characteristics as that seen in neuronal M-current.Linopirdine is a powerful blocker of KCNQ2/3 channel and acetylcholine inhibits the current by muscarinic M_1 receptor.This experiment has laid a solid basis for further study of M-current and KCNQ2/3 current,and is important for the study of neurological diseases relating to alteration of M-current,such as convulsion,epilepsy and Alzheimers disease.

Objective To determine the characteristics of treatment and diagnosis,surgical timing and surgical methods in severely head-injured patients with central herniation.Methods Twenty patients with central herniation caused by contusions and lacerations of the bilateral frontal lobes hospitalized from July 2010 to December 2012 were retrospectively reviewed.There were 11 males and 9 females,at mean age of 42 years (range,18-70 years).Injury was caused by traffic accidents in 15 patients,falls in 3 and fighting events in 2.Eight patients were treated immediately on admission and twelve patients underwent emergency operation.All the operations involved simultaneous bilateral craniectomy for decompression,including bilateral decompressive craniectomy in 6 patients and unilateral decompressive craniectomy in 14 patients.Glasgow Outcome Scale (GOS) and Montreal Cognitive Assessment were used to evaluated outcome evaluation and cognitive impairment respectively.Complications were recorded.Results All patients were followed up for 6-12 months (mean,8 months).According to GOS,good recovery was presented in 10 patients,moderate disability occurred in 6,severe disability in 2,vegetative state in 1,and death in 1.Eleven patients suffered severe mental disorders especially personality change and disturbance of intelligence,and restored after 12 months.Five patients were complicated by epilepsy and two hydrocephalus.Conclusions For central herniation in patients with severe head injury,an emergent surgery is necessary if there exist conscious disturbance and pupil aggravations,hematoma enlargement and significant displacement of midline structure.Timely bilateral balance decompressive craniectomy is effective to reduce the mortality and disability and improve quality of life.

OBJECTIVETo study the inhibition effect of winter seedling raising in sunlight-greenhouse on premature bolting of Angelica sinensis.

METHODOne factor of sowing date with 4 levels was tested at random design with 3 repeats.

RESULTSowing date of winter seedling raising had an important effect on seedling growth, seedling mature, plant growth, premature bolting, yield, quality, and extreme significant effect on yield. The bolting date of winter raised seedlings started in middle of July, 50 d later than tranditional seedlings, and bolting peck date was in the last ten days of July, 40 d later than the traditional seedlings. The highest ratio of premature bolting for winter raised seedlings was 1%, and the lowest was 0. A. sinensis roots sowed in November 28 had the highest yield, root dry ratio, ethanol extract, essential oil and ferulic acid contents compared to that in other sowing dates. The best sowing time was from end of November to middle of December.

CONCLUSIONPremature bolting of A. sinensis could be greatly inhibited by winter seedling raising, end of November to middle of December would be the best sowing time for winter seedling raising in greenhouse.

Angelica sinensis ; growth & development ; Plants, Medicinal ; growth & development ; Seasons ; Seedlings ; growth & development

Objective To analyze the positive features of cytomegalovirus antibodies in children aged 0-12 years in Shandong.Methods 1 429 inpatients and outpatiens w ho came to Shandong Provincial Hospital Affil-iated to Shandong University from January 2014 to December 2016 were enrolled in the study.Cytomegalovir-us IgG and IgM antibodies were detected by chemiluminescence.SPSS21.0 software was used for statistical a-nalysis.Results The positive rate of IgG and IgM antibody of cytomegalovirus was 89.36% and 16.59% re-spectively,and the positive rate of IgG antibody of cytomegalovirus in male was 88.04%,which was signifi-cantly lower than 91.32% in female (P<0.05).The positive rate of cytomegalovirus IgM antibody in male was 14.07%,which was significantly lower than 20.31% in female (P<0.05).The positive rate of IgG anti-body of cytomegalovirus was the lowest in 6-12 months age group ( 73.68%),the highest in 0-<6 months age group (92.73%);cytomegalovirus IgM antibody positive rate was the lowest in 4-12 year-old age group (10.26%),and the highest in 1-3 year-old age group (21.57%).The positive rate of IgM antibody of cyto-megalovirus was the highest in winter (22.92%) and the lowest in autumn (11.11%),and the differences of positive rate between the four seasons were statistically significant (P<0.05).A total of 4 cytomegalovirus antibody combination patterns were detected,with the most common type of cytomegalovirus IgG antibody positive and cytomegalovirus IgM antibody double negative,accounting for 73.27%.Conclusion There were differences in sex,age and season in the positive rates of CMV antibody in Shandong area.Prevention and con-trol of cytomegalovirus infection in children should be strengthened.

Vincristine, a widely used chemotherapeutic agent for treating different cancer, often induces severe peripheral neuropathic pain. A common symptom of vincristine-induced peripheral neuropathic pain is mechanical allodynia and hyperalgesia. However, mechanisms underlying vincristine-induced mechanical allodynia and hyperalgesia are not well understood. In the present study, we show with behavioral assessment in rats that vincristine induces mechanical allodynia and hyperalgesia in a PIEZO2 channel-dependent manner since gene knockdown or pharmacological inhibition of PIEZO2 channels alleviates vincristine-induced mechanical hypersensitivity. Electrophysiological results show that vincristine potentiates PIEZO2 rapidly adapting (RA) mechanically-activated (MA) currents in rat dorsal root ganglion (DRG) neurons. We have found that vincristine-induced potentiation of PIEZO2 MA currents is due to the enhancement of static plasma membrane tension (SPMT) of these cells following vincristine treatment. Reducing SPMT of DRG neurons by cytochalasin D (CD), a disruptor of the actin filament, abolishes vincristine-induced potentiation of PIEZO2 MA currents, and suppresses vincristine-induced mechanical hypersensitivity in rats. Collectively, enhancing SPMT and subsequently potentiating PIEZO2 MA currents in primary afferent neurons may be an underlying mechanism responsible for vincristine-induced mechanical allodynia and hyperalgesia in rats. Targeting to inhibit PIEZO2 channels may be an effective analgesic method to attenuate vincristine-induced mechanical hypersensitivity.