Isolation, culture and validation of CD34+ vascular wall-resident stem cells from mice / 生理学报

Vascular wall-resident stem cells (VW-SCs) play a critical role in maintaining normal vascular function and regulating vascular repair. Understanding the basic functional characteristics of the VW-SCs will facilitate the study of their regulation and potential therapeutic applications. The aim of this study was to establish a stable method for the isolation, culture, and validation of the CD34+ VW-SCs from mice, and to provide abundant and reliable cell sources for further study of the mechanisms involved in proliferation, migration and differentiation of the VW-SCs under various physiological and pathological conditions. The vascular wall cells of mouse aortic adventitia and mesenteric artery were obtained by the method of tissue block attachment and purified by magnetic microbead sorting and flow cytometry to obtain the CD34+ VW-SCs. Cell immunofluorescence staining was performed to detect the stem cell markers (CD34, Flk-1, c-kit, Sca-1), smooth muscle markers (SM22, SM MHC), endothelial marker (CD31), and intranuclear division proliferation-related protein (Ki-67). To verify the multipotency of the isolated CD34+ VW-SCs, endothelial differentiation medium EBM-2 and fibroblast differentiation medium FM-2 were used. After culture for 7 days and 3 days respectively, endothelial cell markers and fibroblast markers of the differentiated cells were evaluated by immunofluorescence staining and q-PCR. Furthermore, the intracellular Ca2+ release and extracellular Ca2+ entry signaling were evaluated by TILLvisION system in Fura-2/AM loaded cells. The results showed that: (1) High purity (more than 90%) CD34+ VW-SCs from aortic adventitia and mesenteric artery of mice were harvested by means of tissue block attachment method and magnetic microbead sorting; (2) CD34+ VW-SCs were able to differentiate into endothelial cells and fibroblasts in vitro; (3) Caffeine and ATP significantly activated intracellular Ca2+ release from endoplasmic reticulum of CD34+ VW-SCs. Store-operated Ca2+ entry (SOCE) was activated by using thapsigargin (TG) applied in Ca2+-free/Ca2+ reintroduction protocol. This study successfully established a stable and efficient method for isolation, culture and validation of the CD34+ VW-SCs from mice, which provides an ideal VW-SCs sources for the further study of cardiovascular diseases.

Reconstitution of large conductance calcium-activated potassium channels into artificial planar lipid bilayers / 生理学报

This study was aimed to establish a method to create a stable planar lipid bilayer membranes (PLBMs), in which large conductance calcium-activated potassium channels (BK) were reconstituted. Using spreading method, PLBMs were prepared by decane lipid fluid consisting of N-weathered mixture of phosphatidylcholine and cholesterol at 3:1 ratio. After successful incorporation of BKchannel into PLBMs, single channel characteristics of BKwere studied by patch clamp method. The results showed that i) the single channel conductance of BKwas (206.8 ± 16.9) pS; ii) the activities of BKchannel were voltage dependent; iii) in the bath solution without Ca, there was almost no BKchannel activities regardless of under hyperpolarization or repolarization conditions; iv) under the condition of +40 mV membrane potential, BKchannels were activated in a Caconcentration dependent manner; v) when [Ca] was increased from 1 μmol/L to 100 μmol/L, both the channel open probability and the average open time were increased, and the average close time was decreased from (32.2 ± 2.8) ms to (2.1 ± 1.8) ms; vi) the reverse potential of the reconstituted BKwas -30 mV when [K] was at 40/140 mmol/L (Cis/Trans). These results suggest that the spreading method could serve as a new method for preparing PLBMs and the reconstituted BKinto PLBMs showed similar electrophysiological characteristics to natural BKchannels, so the PLBMs with incorporated BKcan be used in the studies of pharmacology and dynamics of BKchannel.

Angiotensin II activates large-conductance Ca(2+)-activated potassium channels in human mesenteric artery smooth muscle cells / 生理学报

The aim of present study was to explore the vasodilatation mechanism of angiotensin II (AngII) at the molecular level by investigating the effect of AngII on large-conductance Ca²⁺-activated potassium channels (BK(Ca)) in human mesenteric artery smooth muscle cells. The effect of AngII on BK(Ca) was observed by using patch clamp single channel recording technique and amphotericin-perforated whole-cell recording technique. AngII type 1 receptor (AT₁R) and AngII type 2 receptor (AT₂R) mRNA expression in human mesenteric artery was detected by RT-PCR. In cell-attached patch (Vm = +40 mV), AngII (100 nmol/L) had no significant effect on BK(Ca). After pretreatment with Valsartan (a specific inhibitor of AT₁R, 10 μmol/L), 25, 100 and 250 nmol/L AngII stimulated BK(Ca) activity significantly in a dose response manner. After pretreatment of Valsartan, AngII (100 nmol/L) enhanced BK(Ca) open probability (NP(O)) from 0.010 ± 0.003 to 0.039 ± 0.015, decreased the mean close time (T(C)) of BK(Ca) markedly from (2 729.5 ± 808.6) ms to (487.7 ± 182.5) ms (n = 11, P < 0.05) , but AngII had no significant influences on the amplitude (Amp) and the mean open time (T(O)) of BK(Ca). Further PD123,319 (a specific inhibitor of AT₂R) treatment prevented the stimulatory effect of AngII: PD123,319 decreased the NP(O) of BK(Ca) from 0.016 ± 0.003 to 0.004 ± 0.001 (n = 5, P < 0.05), but had no significant influences on Amp, T(O) and T(C) of BK(Ca). In addition, after pretreatment with Valsartan and PD123,319, AngII (100 nmol/L) had no significant effect on BK(Ca). In the amphotericin-perforated whole-cell patch-clamp configuration, after pretreatment with Valsartan, the current density of BK(Ca) at the voltage of -60 - +30 mV had no significant changes before and after adding 100 nmol/L AngII, but the current density of BK(Ca) at the voltage of +40 mV, +50 mV and +60 mV increased significantly after adding 100 nmol/L AngII, from (9.03 ± 2.23) pA/pF, (12.88 ± 2.55) pA/pF and (17.26 ± 2.84) pA/pF to (12.47 ± 2.22) pA/pF, (18.71 ± 2.51) pA/pF and (27.21 ± 3.12) pA/pF (n = 6, P < 0.05), respectively. Using RT-PCR, the AT₁R mRNA and AT₂R mRNA from isolated human mesenteric artery were detected. So we can draw a conclusion, AngII can stimulate BK(Ca) activity in human mesenteric artery smooth muscle cells after pretreatment with Valsartan, which is possibly mediated by AT₂R.

β-estradiol activates BK(Ca) in mesenteric artery smooth muscle cells of post-menopause women / 生理学报

The aim of the present study was to study the effect of β-estradiol (β-E(2)) on the large-conductance Ca(2+)-activated potassium (BK(Ca)) channel in mesenteric artery smooth muscle cells (SMCs). The mesenteric arteries were obtained from post-menopause female patients with abdominal surgery, and the SMCs were isolated from the arteries using an enzymatic disassociation. According to the sources, the SMCs were divided into non-hypertension (NH) and essential hypertension (EH) groups. Single channel patch clamp technique was used to investigate the effect of β-E(2) and ICI 182780 (a specific blocker of estrogen receptor) on BK(Ca) in the SMCs. The results showed the opening of BK(Ca) in the SMCs was voltage and calcium dependent, and could be blocked by IbTX. β-E(2) (100 μmol/L) significantly increased open probability (Po) of BK(Ca) in both NH and EH groups. After β-E(2) treatment, NH group showed higher Po of BK(Ca) compared with EH group. ICI 182780 could inhibit the activating effect of β-E(2) on BK(Ca) in no matter NH or EH groups. These results suggest β-E(2) activates BK(Ca) in mesenteric artery SMCs from post-menopause women via estrogen receptor, but hypertension may decline the activating effect of β-E(2) on BK(Ca).

The technique of simultaneous recording calcium transients and spontaneous transient outward currents in arterial smooth muscle cells / 生理学报

Laser scanning confocal microscopy (LSCM) and whole-cell perforated patch-clamp techniques were combined to study simultaneously the changes of intracellular signal molecules and membrane currents. Intracellular calcium transients and spontaneous transient outward currents (STOCs) were recorded simultaneously in freshly isolated mouse cerebral artery smooth muscle cells. The cells loaded with fluo-4/AM were scanned with the confocal line-scan mode. Triggering voltage pulses derived from an EPC-10 patch clamp amplifier triggered the confocal line scan. The results showed that STOCs and intracellular calcium transients could be simultaneously recorded in the same cell. This technique will be useful in studies of diseases caused by impairments of intracellular Ca(2+) signaling and related ionic channel activities, or vice versa.

UTP regulates spontaneous transient outward currents in porcine coronary artery smooth muscle cells through PLC-IP(3) signaling pathway / 生理学报

The aim of the present study was to investigate the effects of inositol 1,4,5-trisphosphate (IP(3))-generating agonist UTP on spontaneous transient outward currents (STOCs), and explore the role of intracellular Ca(2+) release in the current response mediated by IP(3) in porcine coronary artery smooth muscle cells (CASMCs). The coronary artery was excised from the fresh porcine heart and cut into small segments (2 mm × 5 mm) and then transferred to enzymatic dissociation solution for incubation. Single CASMCs were obtained by two-step enzyme digestion at 37 °C. STOCs were recorded and characterized using the perforated whole-cell patch-clamp configuration in freshly isolated porcine CASMCs. The currents were amplified and filtered by patch-clamp amplifier (Axopatch 200B), and then the digitized data were recorded by pClamp 9.0 software and further analyzed by MiniAnalysis 6.0 program. The results were as follows: (1) UTP led to conspicuous increases in STOC amplitude by (57.54±5.34)% and in frequency by (77.46±8.42)% (P<0.01, n=38). (2) The specific blocker of phospholipase C (PLC) - U73122 (5 μmol/L) remarkably reduced STOC amplitude by (31.04±7.46)% and frequency by (41.65±16.59)%, respectively (P<0.05, n=10). In the presence of U73122, UTP failed to reactivate STOCs (n=7). (3) Verapamil (20 μmol/L) and CdCl2 (200 μmol/L), two blockers of L-type voltage-dependent Ca(2+) channels, had little effects on STOCs initiated by UTP (n=8). (4) 1 μmol/L bisindolylmaleimide I (BisI), a potent blocker of protein kinase C (PKC), significantly increased STOC amplitude by (65.44±24.66)% and frequency by (61.35±21.47)% (P<0.01, n=12); UTP (40 μmol/L), applied in the presence of 1 μmol/L BisI, could further increase STOC activity (P<0.05, P<0.01, n=12). Subsequent application of ryanodine (50 μmol/L) abolished STOC activity. (5) In the presence of UTP (40 μmol/L), inhibition of IP(3) receptors (IP(3)Rs) by 2-aminoethoxydiphenyl borate (2-APB, 40 μmol/L) reduced STOC amplitude by (24.08±3.97)% (P<0.05, n=8), but had little effect on STOC frequency (n=8). While application of 2-APB (80 μmol/L) significantly reduced STOC amplitude by (31.43±6.34)% and frequency by (40.59±19.01)%, respectively (P<0.05, P<0.01, n=6). Subsequent application of ryanodine (50 μmol/L) completely blocked STOC activity. Pretreatment of cells with 2-APB (40 μmol/L) or ryanodine (50 μmol/L), UTP (40 μmol/L) failed to reactivate STOCs. The results suggest that UTP activates STOCs mainly via PLC and IP(3)-dependent mechanisms. Complex Ca(2+)-mobilization pathways are involved in UTP-mediated STOC activation in porcine CASMCs.

Characteristic of spontaneous transient outward potassium currents in vascular smooth muscle cells of porcine coronary artery / 生理学报

Spontaneous transient outward currents (STOCs) play an important role in the myogenic regulation of small artery tone, such as coronary artery. In the present study, we investigated the electrophysiological properties and the regulation of STOCs in vascular smooth muscle cells (VSMCs) of porcine coronary artery by perforated patch-clamp technique. Our data showed that STOCs were dependent on voltage and extracellular calcium and they were highly variable in amplitudes and frequencies. STOCs superimposed stochastically onto whole-cell K(+) currents induced by step and ramp protocols. STOCs were completely abolished by ChTX [inhibitor of large-conductance Ca(2+)-activated potassium (BK(Ca)) channels], removal of extracellular Ca(2+), or addition of ryanodine (50 mumol/L) respectively. In contrast, CdCl2 and verapamil, inhibitors of voltage-dependent L-type Ca(2+) channels, had little effect on STOCs. Caffeine (5 mmol/L) transiently increased STOCs (hump), followed by a temporary inhibition. Ca(2+) ionophore A23187 increased both amplitude and frequency of STOCs. Na(+) ionophore monensin increased the frequency of STOCs. STOCs were strongly inhibited by KB-R7943, a selective inhibitor of the reverse mode of the Na(+)/Ca(2+) exchanger. Based on these observations, we conclude that STOCs are mediated by BK(Ca) channels. The generation and activation of STOCs depend upon Ca(2+) influx through Na(+)/Ca(2+) exchange and release of Ca(2+) from sarcoplasmic reticulum (SR) via ryanodine receptors. This suggests that Na(+)/Ca(2+) exchange determines calcium store refilling. Recycling of entering Ca(2+) from superficial SR may locally elevate Ca(2+) concentration at the plasma membrane, thereby activating BK(Ca) channels and then initiating STOCs.