The brain pericyte is a unique and indispensable part of the blood-brain barrier (BBB), and contributes to several pathological processes in traumatic brain injury (TBI). However, the cellular and molecular mechanisms by which pericytes are regulated in the damaged brain are largely unknown. Here, we show that the formation of neutrophil extracellular traps (NETs) induces the appearance of CD11b⁺ pericytes after TBI. These CD11b⁺ pericyte subsets are characterized by increased permeability and pro-inflammatory profiles compared to CD11b^- pericytes. Moreover, histones from NETs by Dectin-1 facilitate CD11b induction in brain pericytes in PKC-c-Jun dependent manner, resulting in neuroinflammation and BBB dysfunction after TBI. These data indicate that neutrophil-NET-pericyte and histone-Dectin-1-CD11b are possible mechanisms for the activation and dysfunction of pericytes. Targeting NETs formation and Dectin-1 are promising means of treating TBI.
Blood-Brain Barrier/metabolism* ; Brain/pathology* ; Brain Injuries, Traumatic/metabolism* ; Extracellular Traps/metabolism* ; Histones ; Humans ; Lectins, C-Type ; Pericytes/pathology*

During the recent conflicts in Iraq and Afghanistan,traumatic brain injury (TBI)has become the most prev-alent military injury that is described as the signature injuryof the current military operations.It usually causes no or mild external injury but results in serious long-lasting neuropsychiatric abnormalities,which have far-reaching impact on veterans,their families and the American society.Here we describeol the investment in TBI from the US government and the development in the diagnosis and treatment of mild TBI on the battlefield before putting forward some proposals for the Chinese army.

Background Retinal ganglion cell (RGCs) death following ischaemic insult is the major cause of a number of vision-threatening diseases.Recent studies confirmed that micro RNA (miR-30b) can alleviate hypoxy-induced cardiac injury.However,whether miR-30b can protect RGCs against oxygen-glucose deprivation damage is still not ellucidated.Objective The aim of this study was to investigate the protective effect of miR-30b on RGCs damage caused by oxygen-glucose deprivation.Methods The retinas were isolated from the eyeballs of eight SD rats aged postnatal 24 hours and RGCs were primarily cultured.The cells were divided into the recombinant adeno-associated virus (rAVV) control group,rAAV-miR-30b mimic group and AAV-miR-30b inhibitor group.Then the cells were transfected using rAVV-miR plasmid,rAAV-miR-30b mimic plasmid and AAV-miR-30b inhibitor plasmid,respectively for 6 days with the RGCs ∶ AAV as 1 ∶ 10 000.The cells were cultured with low glucose medium in hypoxygen incubator (5％ CO2,17％ N2,3％ O2) or 5％ CO2 incubator respectively for 24 hours.Cell viability was detected by cell counting kit-8 assay.The expression of Tubulin Ⅲ,a neuron specific marker,was detected by immunofluorescence technology to evaluate the survival of RGCs.The apoptosis and necrosis of the cells were assessed by Hoechst/PI double staining.Results The RGCs grew well with round shape and 1 3 processes 7 days after cultured in the normal cells.However,the RGCs were diminished and the cell process disrupted in the oxygen-glucose deprivation group.The relative vability of the cells was 3.310-±0.162 in the rAAV-miR-30b mimic group,which was significantly higher than 0.949±0.141 in the rAAV-miR-30b inhibitor group and 0.900±0.181 in the rAAV-miR control group(t=10.508,10.296,both at P＜0.001).It was positively expressed in survival RGCs,with the red fluorescence.The number of Tubulin Ⅲ+ cells was (13.800± 1.924)/field in the rAAV-miR-30b mimic group,showing a significant increase in comparison with (0.600±0.548)/field in the rAAV-miR-30b inhibitor group and (0.800± 1.304)/field in the rAAV-miR control group (t =15.141,14.912,both at P ＜ 0.001).Significant differences were found in the apoptosis rate and necrosis rate among the rAAV-miR-30b mimic group,rAAV-miR control group and PBS group (F=10.851,P=0.002;F=6.378,P=0.013),and the apoptosis rate and necrosis rate in the rAAV-miR-30b mimic group were considerably lower than those in the rAAV-miR control group and PBS group (all at P＜0.05).Conclusions The oxygen-glucose deprivation models can be established in RGCs by hypooxygic and low-glucose cultivation.rAAV encoding miR-30b mimics transfection can protect RGCs against oxygen-glucose deprivation damage.

Objective To investigate the effect of adenosine A2A receptor on pituitary-adrenal axis response in acute phase of moderate craniocerebral trauma.Methods Eighteen adenosine A2A receptor knock-out mice in a C57BL/6 background and another eighteen their wild-type littermates were divided into normal control group and craniocerebral trauma for 4 hours group,and craniocerebral trauma for 24 hours group according to random number table,with siμ mice per group.Plasma levels of adrenocorticotropic-hormone (ACTH) and corticosterone at hours 4 and 24 postinjury were determined using ELISA method.Results At 4 and 24 hours,brain water content in wild-type mice [(80.950 ± 0.184) ％,(82.178 ± 0.255)％ respectively] was higher than that in gene knock-out mice [(80.006 ± 0.199)％,(81.091 ± 0.295)％ respectively,P ＜ 0.01].Besides,brain water content in both wild-type and gene knock-out mice increased after injury (P ＜ 0.01).Plasma levels of ACTH and corticosterone were higher in geneknock-out sham mice than in wild-type sham mice [(120.214 ± 2.472) ng/L vs (91.767 ±7.395) ng/L,(27.814 ±0.888) μg/L vs (11.430 ±0.644) μg/L respectively,P ＜0.0l].At 4 and 24 hours,plasma levels of ACTH [(174.776-± 5.040) ng/L,(189.613 ± 4.802) ng/L respectively] in geneknock-out mice showed a higher increase than those in wild-type mice [(119.594 ± 6.945) ng/L,(124.93-± 11.001 7) ng/L respectively,P ＜ 0.05].Moreover,plasma levels of corticosterone [(40.138 ±-0.805) μg/L] at 4 hours and [(37.440-0.485)μg/L] at 24 hours in gene knock-out mice showed a same result as compared with that in wild-type mice [(19.702 ± 0.804) μg/L,(17.602 ± 0.743) μg/L respectively,P ＜ 0.05].Conclusions Knock-out of adenosine A2A receptor increases the release of ACTH and corticosterone in acute stage of moderate craniocerebral trauma and promotes pituitary-adrenal stress response.This may provide a novel explanation for the neuroprotective effect of A2A receptor deficiency.

Objective To obtain the expression pattern of imprint gene H19 in JEG-3 cell in order to explore the regulation mechanism of H19 on trophoblast cellular biological behavior .Methods After correct identification with sequencing for the recom-binant eukaryotic expression plasmid pRc/CMV which including the whole length of H19 cDNA ,the plasmid was transfected to the cell line JEG-3 .The expression of H19 mRNA was observed and the gene expression profile of three groups of JEG-3 cell were de-tected with Affymetri :U133 plus 2 .0 Array .Results After being transfected with target H 19 gene ,the expression of the mRNA level was significantly increased compared with control group .And the gene expression profile was changed significantly .19 genes were up-regulated ,77 genes were down-regulated .Expression levels of HES1 gene which being choosed as a different expression gene were detected by fluorescence quantitative PCR in severe preeclampsia placenta tissue and normal late pregnant placenta .The expression level of HES1 mRNA in severe preeclampsia placenta decreased significantly than normal late pregnant placenta tissues . Conclusion Many genes induced by H19 have been screened by high-throughput gene chip method .It provides the experimental ba-sis for advanced studying the regulation the cellular biological behavior with H 19 gene .

ObjectiveTo investigate the mechanism of dexamethasone (Dex) in inhibiting monocyte adhesion and phagocytose function.Methods Under the stimulation of phorbo1-12-myristate-13-acetate (PMA),U937 monocytes cultured in vitro were treated with Dex and Fasudil respectively.The adhesion rate of U937 monocles to human umbilical vein endothelial cells (HUVECs) and their phagocytic ability of India ink were studied.The protein content and activity of rho-associated coiled-coil protein kinase 1 ( ROCK1 ) as well as the effects of mifepristone and cycloheximide on Dex were determined.ResultsBoth DEX and Fasudil could significantly inhibit the adhesion tate and phagocytosis of U937 cells stimulated by PMA and suppressed the activity of ROCK1.While mifepristone and cycloheximide could not alter these effects of DEX.ConclusionDEX interferes with the adhesion and phagocytosis function of U937 cells by inhibiting ROCKI activity.

Objective To observe the variation of dynamic 64-slice CT perfusion imaging of rats with traumatic brain injury and discuss the relating pathophysiological basis.Methods A total of 80 adult male SD rats were randomly divided into three groups according to random number table,ie,normal control group,sham injury group and injury group.The injury group was divided into eight subgroups at time points of 2,6,12,24,48,72,120 and 168 hours.The detection of CT perfusion imaging,water content and blood-brain barrier permeability was done in the injured rats at all time points.The pathological changes were also observed to calculate their correlation with CT perfusion parameters of the injured region.Results The relative value of the blood perfusion was decreased significantly to the mimimum within 24 hours after injury.Within 2-12 hours,relative cerebral fluid(rCBF)and relative cerebral blood volume(rCBV)remained in a low perfusion state,with just a little increase.Relative mean transit time(rMTT)was prolonged and permeability surface(PS)increased.rCBF and rCBV were increased gradually with time,which was reversed till at 24 hours after injury and the injured side was in a high perfusion state,with the highest value of PS.The perfusion reached peak at 48 hours after injury and then became normal gradually.The water content was increased at 2 hours after injury and reached its peak at 48 hours.The permeability of blood-brain barrier(BBB)began to increase at 2 hours after injury and reached the peak at 24 hours.rCBF and rCBV were positively correlated with change of brain edema and PS was positively correlated with BBB permeability.Conclusion The dynamic 64-slice spiral CT perfusion imaging reflects the variation of BBB and edema and can be used as noninvasive imaging method for predicting the degree of brain perfusion and edema.

ObjectiveTo investigate the expression of paired immunoglobulin-like receptor B (PirB) in optic nerve, visual cortex, cerebella, spinal cord and sciatic nerve of normal adult mice.MethodsTwelve healthy adult BALB/c mice were randomly and equally divided into two groups.The immunohistochemistry and Western blot were used to detect the expression of PirB in the tissues described above respectively.ResultsBoth the immunohistochemistry and Western blot test revealed that the expression of PirB was positive in the optic nerve, visual cortex, cerebella and spinal cord, but negative in the sciatic nerve.The positive signals in the sections were located in the cell bodies and the neurites were observed in some of them.Western blot showed the apparent positive band of PirB in the optic nerve, visual cortex, cerebella and spinal cord rather than in the sciatic nerve.The protein expression level of PirB was relatively high in the visual cortex (P ＜0.05) but relatively low in the optic nerves (P ＜0.01).ConclusionThe PirB expresses positively in the optic nerve, indicating that PirB protein may closely correlate with the poor regeneration of the optic nerve.

Objective To explore the role of H19 imprinting in etiology of pre-eclampsia. Methods Placentas of 24 women with pre-eclampsia (3 with mild pre-eclampsia and 21 with severe pre-eclampsia) and 50 healthy pregnant women at full term (control) were collected during selected cesarean delivery between August 2007 and March 2008. The statuses of H19 imprinting with placental tissues from normal pregnancy and patients with pre-eclampsia were identified upon polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP). The systolic and diastolic pressure were analyzed in H19 heterozygotic women. Results (1) There were 20 (40%) heterozygotes in 50 cases placenta tissues of the third trimesters, 11 (45%) heterozygotes in 24 cases placenta tissues of pre-eclampsia, There were no significant difference between two groups ( P > 0.05 ). (2) All 20 heterozygotes in placenta tissues of the third trimesters are exclusively monoallelically expressed, while 5 cases (45%) in 11 heterozygotes of pre-eclampsia are biallelically expressed (loss of imprinting, LOI). There were significant difference between two groups (P < 0. 01 ). (3) The values of systolic and diastolic pressure of patients with monoallelic expression of H19 were (171 ±9) mm Hg (1 nun Hg =0.133 kPa) and ( 104±8) mm Hg, the values of systolic and diastolic pressure with biallelic expression were ( 194±21 ) mm Hg and ( 124±18) mm Hg. There were significant difference between two groups (P<0.05 ). Conclusion LOI of H19 can be identified in pre-eclamptic placentas and is associated with maternal blood pressures, which implies the involvement of H19 gene LOI in the pathogenesis of pre-eclampsia and its potential relationship with the severity of the disease.

Conformations of surface atoms in various stages of nanogold-based genechip testing were scanned by the atomic force microscope based on the scanning tunneling microscope. The findings were: First, the surface atoms of genechip slide (formylphenyl glass) were in a regular porous-arrangement; Second, after combination with probe, the regular porous arrangement changed to be irregular; Third, after hybridization with the target nucleic acid, the surface atoms were once again in a cable-like arrangement which was relatively structured and intensively cross-parallel. However, after the silver staining, the surface atoms showed a larger block structure with serious unevenness. From these results we can intuitively know the process and differences in probe combination, nucleic acid hybridization, and silver staining. Moreover, the relevant experiment was verified at the micro-level.
Gold ; Metal Nanoparticles ; chemistry ; Microscopy, Atomic Force ; methods ; Microscopy, Scanning Tunneling ; methods ; Molecular Conformation ; Nanotechnology ; methods ; Oligonucleotide Array Sequence Analysis ; instrumentation ; methods ; Particle Size ; Surface Properties