半连续灌注培养中杂交瘤细胞的生长和代谢

考察了在半连续灌注培养中WuT₃杂交瘤细胞在不同灌注速率下细胞生长的动态变化,培养基中主要基质的消耗和代谢物的生成。当灌注速率D从1.0/d升高到2.0/d时,乳酸得率系数Y_lac/glu降低18%,氨得率系数Y_amm/gln降低40%,丙氨酸得率系数Y_ala/gln升高58%,甘氨酸得率系数Y_gly/gln基本恒定。说明在灌注速率升高的条件下,细胞会调整代谢机制,丙酮酸和过量的谷氨酸通过转氨作用生成丙氨酸而非甘氨酸。     

Photosystem 2 activity of <Emphasis Type="Italic">Citrus volkameriana</Emphasis> (L.) leaves as affected by Mn nutrition and irradiance

Citrus volkameriana (L.) plants were grown for 43 d in nutrient solutions containing 0, 2, 14, 98, or 686 μM Mn (Mn₀, Mn₂, Mn₁₄, Mn₉₈, and Mn₆₈₆, respectively). To adequately investigate the combined effects of Mn nutrition and irradiance on photosystem 2 (PS2) activity, irradiance response curves for electron transport rate (ETR), nonphotochemical quenching (q_N), photochemical quenching (q_P), and real photochemical efficiency of PS2 (Φ_PS2) were recorded under 10 different irradiances (66, 96, 136, 226, 336, 536, 811, 1 211, 1 911, and 3 111 μmol m⁻² s⁻¹, I₆₆ to I₃₁₁₁, respectively) generated with the PAM-2000 fluorometer. Leaf chlorophyll content was significantly lower under Mn excess (Mn₆₈₆) compared to Mn₀; its highest values were recorded in the treatments Mn₂-Mn₉₈. However, ETR and Φ_PS2 values were significantly lower under Mn₀ compared to the other Mn treatments, when plants were exposed to irradiances ≥96 μmol m⁻² s⁻¹. Furthermore, Mn₀ plants had significantly higher values of q_N and lower values of q_P at irradiances ≤226 and ≥336 μmol m⁻² s⁻¹, respectively, than those grown under Mn₂-Mn₆₈₆. Irrespective of Mn treatment, the values of Φ_PS2 and q_N decreased, while those of q_P increased progressively by increasing irradiance from I₁₃₆ to I₃₁₁₁. Finally, Mn₂-Mn₉₈ plants were less sensitive to photoinhibition of photosynthesis (≥811 μmol m⁻² s⁻¹) than the Mn₆₈₆ (≥536 μmol m⁻² s⁻¹) and Mn₀ (≥336 μmol m⁻² s⁻¹) ones.     

Short-term responses of photosynthetic membrane lipids and photochemical efficiency in plants of <Emphasis Type="Italic">Phaseolus vulgaris</Emphasis> and <Emphasis Type="Italic">Vigna unguiculata</Emphasis> submitted to high irradiance

Primary leaves of young plants of common bean (Phaseolus vulgaris cv. Carioca and Negro Huasteco) and cowpea (Vigna unguiculata Walp cv. Epace 10) were exposed to high irradiance (HI) of 2 000 μmol m⁻² s⁻¹ for 10, 20, and 30 min. The initial fluorescence (F₀) was nearly constant in response to HI in each genotype except for Carioca. A distinct reduction of maximum fluorescence (F_m) was clearly observed in stressed genotypes of beans after 20 min followed by a slight recovery for the longer stress times. In common bean, the maximum quantum yield (F_v/F_m) was reduced slowly from 10 to 30 min of HI. In cowpea, only a slight reduction of F_v/F_m was observed at 20 min followed by recovery to normal values at 30 min. HI resulted in changes in the photochemical (q_P) and non-photochemical (q_N) quenching in both species, but to a different extent. In cowpea plants, more efficiency in the use of the absorbed energy under photoinhibitory conditions was related to increase in q_P and decrease in q_N. In addition, lipid peroxidation changed significantly in common bean genotypes with an evident increase after 20 min of HI. Hence the photosynthetic apparatus of cowpea was more tolerant to HI than that of common bean and the integrity of cowpea cell membranes was apparently maintained under HI.     

Effects of lanthanum element on the rooting of loquat plantlet in vitro

We investigated the rooting rate, the number of roots, and the state of growth of loquat (Eriobotrya japonica Lindi) plantlet in medium where La(NO₃)₃ (0.5–100.O μmol/L) was added 20 d after transplanting. The activity of peroxidase, nitrate reductase, and the fresh weight of roots were determined 44 d after transplanting. The result showed that the optimum concentration of La(NO₃)₃ (1.0–3.0 μmol/L) in the rooted medium could increase the rate and the fresh weight of rooting, promote the length of root, and increase the activities of peroxidase and nitrate reductase.     

外源硅对自毒作用下黄瓜幼苗生长及光合特性的影响

以‘绿博6号’黄瓜幼苗为试材,采用营养液培法研究不同浓度外源硅(0、0.5、1.0、1.5和2.0 mmol/L)对肉桂酸(cinnamic acid,CA)模拟自毒胁迫(3.0 mmol/L CA)下黄瓜幼苗生长、光合参数和叶绿素荧光参数的影响。结果表明：(1)自毒胁迫显著抑制了黄瓜幼苗的生长、根系形态建成和生物量的积累,显著降低了净光合速率(P_n)、蒸腾速率(T_r)、气孔导度(G_s)和叶绿素(Chl a、Chl b和Chl t)含量,并显著降低了叶片中PSⅡ的电子传递速率(ETR)、PSⅡ实际光化学效率［Y_(Ⅱ)］和光化学淬灭系数(qP)。(2)添加适宜浓度外源硅可有效缓解自毒胁迫对黄瓜幼苗生长的影响,并提高其P_n、G_s、T_r和叶绿素含量,在一定程度上维持叶片光合系统的稳定。(3)添加适宜浓度外源硅能使自毒胁迫下黄瓜叶片的F_v/F_m、ETR、Y_(Ⅱ)和qP显著升高,而非光化学淬灭系数(NPQ)则显著下降。研究发现,添加适宜浓度外源硅能提高自毒胁迫下黄瓜幼苗的叶绿素含量、F_v/F_m、ETR、Y_(Ⅱ)和qP,使光合机构趋于稳定,抑制P_n的下降,缓解自毒胁迫对光合系统的损伤,从而增强黄瓜幼苗对自毒胁迫的抗性,并以1.0 mmol/L外源硅处理的效果最佳。     

Partitioning of photosynthetic electron flow between CO<Subscript>2</Subscript> assimilation and O<Subscript>2</Subscript> reduction in sunflower plants under water deficit

In sunflower (Helianthus annuus L.) grown under controlled conditions and subjected to drought by withholding watering, net photosynthetic rate (P _N) and stomatal conductance (g _s) of attached leaves decreased as leaf water potential (Ψ_w) declined from −0.3 to −2.9 MPa. Although g _s decreased over the whole range of Ψ_w, nearly constant values in the intercellular CO₂ concentrations (C _i) were observed as Ψ_w decreased to −1.8 MPa, but C _i increased as Ψ_w decreased further. Relative quantum yield, photochemical quenching, and the apparent quantum yield of photosynthesis decreased with water deficit, whereas non-photochemical quenching (q_NP) increased progressively. A highly significant negative relationship between q_NP and ATP content was observed. Water deficit did not alter the pyridine nucleotide concentration but decreased ATP content suggesting metabolic impairment. At a photon flux density of 550 μmol m⁻² s⁻¹, the allocation of electrons from photosystem (PS) 2 to O₂ reduction was increased by 51 %, while the allocation to CO₂ assimilation was diminished by 32 %, as Ψ_w declined from −0.3 to −2.9 MPa. A significant linear relationship between mean P _N and the rate of total linear electron transport was observed in well watered plants, the correlation becoming curvilinear when water deficit increased. The maximum quantum yield of PS2 was not affected by water deficit, whereas q_P declined only at very severe stress and the excess photon energy was dissipated by increasing q_NP indicating that a greater proportion of the energy was thermally dissipated. This accounted for the apparent down-regulation of PS2 and supported the protective role of q_NP against photoinhibition in sunflower.     

κ阿片肽受体激活对培养心肌细胞生长抑制的影响

目的 :通过体外培养乳鼠心肌细胞 ,观测κ阿片肽受体激活对心肌细胞生长的影响。方法 :对培养乳鼠心肌细胞分组给药 4 8h后 ,用结晶紫染色法测心肌细胞的增殖程度 ,用Lowry’s法测心肌细胞的蛋白质含量。 结果 :κ阿片肽受体激动剂U5 0 ,4 88H(0 .1μmol/L～ 10 μmol/L)对培养心肌细胞的增殖程度和蛋白质含量均有抑制作用并呈剂量依赖性 ;κ阿片肽受体拮抗剂nor binaltorphimine (nor BNI) (1μmol/L)对U5 0 ,4 88H(1μmol/L)的这些抑制效应具有相应的拮抗作用。结论 :阿片肽对心肌细胞生长具有负性调节作用 ,这种作用是通过激活κ阿片肽受体发挥的     

Photosystem 2 photochemistry and pigment composition of a yellow mutant of rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.) under different irradiances

A yellow leaf colouration mutant (named ycm) generated from rice T-DNA insertion lines was identified with less grana lamellae and low thylakoid membrane protein contents. At weak irradiance [50 μmol(photon) m⁻² s⁻¹], chlorophyll (Chl) contents of ycm were ≈20 % of those of WT and Chl a/b ratios were 3-fold that of wild type (WT). The leaf of ycm showed lower values in the actual photosystem 2 (PS2) efficiency (Φ_PS2), photochemical quenching (q_P), and the efficiency of excitation capture by open PS2 centres 1 (F_v′/F_m′) than those of WT, except no difference in the maximal efficiency of PS2 photochemistry (F_v/F_m). With progress in irradiance [100 and 200 μmol(photon) m⁻² s⁻¹], there was a change in the photosynthetic pigment stoichiometry. In ycm, the increase of total Chl contents and the decrease in Chl a/b ratio were observed. Φ_PS2, q_P, and F_v′/F_m′ of ycm increased gradually along with the increase of irradiance but still much less than in WT. The increase of xanthophyll ratio [(Z+A)/(V+A+Z)] associated with non-photochemical quenching (q_N) was found in ycm which suggested that ycm dissipated excess energy through the turnover of xanthophylls. No significant differences in pigment composition were observed in WT under various irradiances, except Chl a/b ratio that gradually decreased. Hence the ycm mutant developed much more tardily than WT, which was caused by low photon energy utilization independent of irradiance.     

The response of electron transport mediated by active NADPH dehydrogenase complexes to heat stress in the cyanobacterium Synechocystis 6803

The electron-transport machinery in photosynthetic membranes is known to be very sensitive to heat. In this study, the rate of electron transport (ETR) driven by photosystem I (PSI) and photosystem II (PSII) during heat stress in the wild-type Synechocystis sp. strain PCC 6803 (WT) and its ndh gene inactiva-tion mutants ΔndhB (M55) and ΔndhD1/ndhD2 (D1/D2) was simultaneously assessed by using the novel Dual-PAM-100 measuring system. The rate of electron transport driven by the photosystems (ETR_PSs) in the WT, M55, and D1/D2 cells incubated at 30℃ and at 55℃ for 10 min was compared. Incubation at 55℃ for 10 min significantly inhibited PSII-driven ETR (ETR^_PSII) in the WT, M55 and D1/D2 cells, and the ex-tent of inhibition in both the M55 and D1/D2 cells was greater than that in the WT cells. Further, PSI-driven ETR (ETR_PSI) was stimulated in both the WT and D1/D2 cells, and this rate was increased to a greater extent in the D1/D2 than in the WT cells. However, ETR_PSI was considerably inhibited in the M55 cells. Analysis of the effect of heat stress on ETR_PSs with regard to the alterations in the 2 active NDH-1 complexes in the WT, M55, and D1/D2 cells indicated that the active NDH-1 supercomplex and medi-umcomplex are essential for alleviating the heat-induced inhibition of ETRPSII and for accelerating the heat-induced stimulation of ETR_PSI, respectively. Further, it is believed that these effects are most likely brought about by the electron transport mediated by each of these 2 active NDH-1 complexes.     

Hexavalent chromium reduction by an actinomycete, Arthrobacter crystallopoietes ES 32

Environmental contamination by hexavalent chromium, Cr(VI), presents a serious public health problem. This study assessed the reduction of Cr(VI) by intact cells and a cell-free extract (CFE) of an actinomycete, Arthrobacter crystallopoietes (strain ES 32), isolated from soil contaminated with dichromate. Both intact cells and CFE of A. crystallopoietes, displayed substantial reduction of Cr(VI). Intact cells reduced about 90% of the Cr(VI) added within 12 h and Cr(VI) was almost completely reduced after 24 h. The K _M and V _max of Cr(VI) bioreduction by intact cells were 2.61 μM and 0.0142 μmol/min/mg protein, respectively. Cell-free chromate reductase of the A. crystallopoietes (ES 32) reduced hexavalent chromium at a K _M of 1.78 μM and a V _max of 0.096 μmol/min/mg protein. The rate constant (k) of chromate reduction was inversely related to Cr(VI) concentration and the half-life (t _1/2) of Cr(VI) reduction increased with increasing concentration. A. crystallopoietes produced a periplasmic chromate reductase that was stimulated by NADH. Results indicate that A. crystallopoietes ES 32 can be used to detoxify Cr(VI) in polluted sites, particularly in stressed environments.     

流体动力对HEK293细胞的细胞团形成及细胞生长和代谢的影响

利用HEK293细胞在悬浮培养中具有聚集成团的体外培养特性,在250mL的Bellco的搅拌培养体系中,以HEK293细胞团的粒径、细胞数、细胞活力、葡萄糖比消耗率(qglc)、乳酸比产率(qlac)和乳酸转化率(Ylacglc)为观察指标,考察HEK293细胞在搅拌速度分别设置为25、50、75和100rmin的培养条件下的细胞团形成、粒径分布以及细胞生长和代谢。HEK293细胞在搅拌速度为50rmin和75rmin培养条件下所形成细胞团的粒径大小适中、离散度小。培养7d后,HEK293细胞团的平均粒径分别为201μm和175μm,其中粒径≥225μm的细胞团所占比例均低于10%;在整个培养过程中,细胞团中的HEK293细胞活力维持在90%以上,qglc、qlac和Ylacglc等反映HEK293细胞代谢的参数保持相对恒定。实验结果提示:合适的搅拌速度所产生的流体动力既可使细胞团的粒径控制在合适的范围内,也可为细胞团中的HEK293细胞提供基本满足其正常生长和代谢需要的物质传递效率。     

无载体固定化培养模式下HEK293细胞的生长和代谢特征

利用HEK293细胞在悬浮培养体系中下具有聚集成团的体外培养特性,在250ml的spinner flask搅拌式细胞培养瓶中以悬浮细胞团的形式实施HEK293细胞的无载体固定化培养,以细胞密度、细胞活力、细胞团粒径分布和葡萄糖比消耗率 (qglc)、乳酸比产率 (qlac)、乳酸转化率 (Ylac/glc)、氨基酸消耗为观察指标,同时设置静止培养体系作为参照,考察无载体固定化培养模式下的HEK293细胞生长和代谢特征。观察结果表明,HEK293细胞在搅拌式细胞培养瓶中无载体固定化培养和在组织培养瓶中静止贴壁培养表现为基本相同的细胞生长和代谢特征,平均粒径小于300μm的细胞团中的物质传递能够满足HEK293细胞维持正常生长和代谢的基本需要。HEK293细胞的无载体固定化培养便于实施灌注操作、提高生物反应器单位体积的生产效率。     

Electrospun poly-l-lactic acid/polyvinyl alcohol nanofibers improved insulin-producing cell differentiation potential of human adipose-derived mesenchymal stem cells

Combination of adipose-derived mesenchymal stem cells (ADSCs) and synthetic materials in terms of pancreatic tissue engineering can be considered as a treatment of diabetes. This study aimed to evaluate the differentiation of human ADSCs to pancreatic cells on poly-l -lactic acid/polyvinyl alcohol (PLLA/PVA) nanofibers as a three-dimensional (3D) scaffold. Mesenchymal stem cells (MSCs) were characterized for mesenchymal surface markers by flow cytometry. Then ADSCs were seeded on 3D scaffolds and treated with pancreatic differentiation medium. Immunostaining assay showed that ADSCs were very efficiently differentiated into a relatively homogeneous population of insulin-producing cells. Moreover, real-time RT-PCR results revealed that pancreas-specific markers were highly expressed in 3D scaffolds compared with their expression in tissue culture plates and this difference in expression level was significant. In addition, insulin and C-peptide secreted in response to varying concentrations of glucose in the 3D scaffold group was significantly higher than that in 2D culture. The results of the present study confirmed that PLLA/PVA scaffold seeded with ADSCs could be a suitable option in pancreatic tissue engineering.     

Osteogenic differentiation of human periosteal-derived cells in a three-dimensional collagen scaffold

This study examined the osteogenic differentiation of cultured human periosteal-derived cells grown in a three dimensional collagen-based scaffold. Periosteal explants with the appropriate dimensions were harvested from the mandible during surgical extraction of lower impacted third molar. Periosteal-derived cells were introduced into cell culture. After passage 3, the cells were divided into two groups and cultured for 28 days. In one group, the cells were cultured in two-dimensional culture dishes with osteogenic inductive medium containing dexamethasone, ascorbic acid, and β-glycerophosphate. In the other group, the cells were seeded onto a three-dimensional collagen scaffold and cultured under the same conditions. We examined the bioactivity of alkaline phosphatase (ALP), the RT-PCR analysis for ALP and osteocalcin, and measurements of the calcium content in the periosteal-derived cells of two groups. Periosteal-derived cells were successfully differentiated into osteoblasts in the collagen-based scaffold. The ALP activity in the periosteal-derived cells was appreciably higher in the three-dimensional collagen scaffolds than in the two-dimensional culture dishes. The levels of ALP and osteocalcin mRNA in the periosteal-derived cells was also higher in the three-dimensional collagen scaffolds than in the two-dimensional culture dishes. The calcium level in the periosteal-derived cells seeded onto three-dimensional collagen scaffolds showed a 5.92-fold increase on day 7, 3.28-fold increase on day 14, 4.15-fold increase on day 21, and 2.91-fold increase on day 28, respectively, compared with that observed in two-dimensional culture dishes. These results suggest that periosteal-derived cells have good osteogenic capacity in a three-dimensional collagen scaffold, which provides a suitable environment for the osteoblastic differentiation of these cells.     

Chondrogenic differentiation of human bone marrow-derived mesenchymal stromal cells in a three-dimensional environment

Cell therapy combined with biomaterial scaffolds is used to treat cartilage defects. We hypothesized that chondrogenic differentiation bone marrow-derived mesenchymal stem cells (BM-MSCs) in three-dimensional biomaterial scaffolds would initiate cartilaginous matrix deposition and prepare the construct for cartilage regeneration in situ. The chondrogenic capability of human BM-MSCs was first verified in a pellet culture. The BM-MSCs were then either seeded onto a composite scaffold rhCo-PLA combining polylactide and collagen type II (C2) or type III (C3), or commercial collagen type I/III membrane (CG). The BM-MSCs were either cultured in a proliferation medium or chondrogenic culture medium. Adult human chondrocytes (ACs) served as controls. After 3, 14, and 28 days, the constructs were analyzed with quantitative polymerase chain reaction and confocal microscopy and sulfated glycosaminoglycans (GAGs) were measured. The differentiated BM-MSCs entered a hypertrophic state by Day 14 of culture. The ACs showed dedifferentiation with no expression of chondrogenic genes and low amount of GAG. The CG membrane induced the highest expression levels of hypertrophic genes. The two different collagen types in composite scaffolds yielded similar results. Regardless of the biomaterial scaffold, culturing BM-MSCs in chondrogenic differentiation medium resulted in chondrocyte hypertrophy. Thus, caution for cell fate is required when designing cell-biomaterial constructs for cartilage regeneration.     

The role of the arginine-glycine-aspartic acid-directed cellular binding to type I collagen and rat mesenchymal cells in colorectal tumour differentiation

The relationship between the adhesion of five human colorectal carcinoma cell lines to extracellular matrix (ECM) proteins, namely type I collagen, type IV collagen, fibronectin, laminin and basement membrane extract (Matrigel), and the ability of these cells to express morphological differentiation when grown in a basement membrane extract (Matrigel) or on normal rat mesenchymal cells has been examined. Two cell lines, SW1222 and HRA-19, organised into glandular structures, with well-defined polarity when cultured on both substrata as well as in three-dimensional (3D) collagen gel culture as previously shown. The remaining three cell lines (SW620, SW480 and HT29) grew as loose aggregates or as they would normally grow on tissue culture plastic. Addition to the culture medium of a hexapeptide, containing the cell-matrix recognition sequence arginine-glycine-aspartic acid (RGD), inhibited attachment and glandular formation of SW1222 and HRA-19 when these cells were grown on living mesenchymal cells, but not in Matrigel. The morphological differentiation of HRA-19 cells in 3D-collagen was also inhibited by the same RGD-containing peptide, as previously shown for SW1222 cells. Attachment of the remaining three cell lines was inhibited on mesenchyme but not in Matrigel, further supporting the specificity of the peptide effect on epithelial-mesenchymal binding. In conclusion we have shown that colorectal tumour cells are able to bind ECM proteins and that the cellular binding is an essential step in the induction of the morphological differentiation seen on living mesenchymal cells, in basement membrane extracts and in type I collagen gel.(ABSTRACT TRUNCATED AT 250 WORDS)     

Spheroid formation and expression of liver-specific functions of human hepatocellular carcinoma-derived FLC-4 cells cultured in lactose-silk fibroin conjugate sponges

This study presents a hepatic tissue engineering application of three-dimensional (3D) porous sponges composed of lactose-silk fibroin (SF) conjugates (Lac-CY-SF) bearing β-galactose residues, hepatocyte-specific ligands. Lac-CY-SF sponges were prepared by freeze-drying, followed by immersion in a series of methanol aqueous solutions. Lac-CY-SF sponges showed heterogeneous pore structure with round pores about 100 μm in diameter and elongated pores 250-450 μm in length and 100-150 μm in breadth. To employ a 3D Lac-CY-SF culture system, human hepatocellular carcinoma-derived FLC-4 cells were seeded in Lac-CY-SF sponges and cultured up to 3 weeks. FLC-4 cell culture in collagen and SF sponges was also performed for comparison with the cell response to Lac-CY-SF sponges. Within 5 days of culture, FLC-4 cells cultured in Lac-CY-SF sponges, as well as the cells cultured in collagen sponges, formed multicellular spheroids with diameters from 30 to 100 μm more efficiently than did the cells cultured in SF sponges. After 3 weeks of culture, WST-1 viability assay revealed that shrinkage suppression of Lac-CY-SF sponges enabled the maintenance of viable FLC-4 cells for a long time, while the shrinkage and disintegration of collagen sponges prevented the maintenance of the cells. FLC-4 cells cultured in Lac-CY-SF sponges exhibited greater elevation of albumin secretion and sustained a higher albumin level compared with the cells cultured in collagen and SF sponges during the 3 week cultivation period. FLC-4 cells cultured in Lac-CY-SF sponges for 3 weeks expressed genes related to liver-specific functions such as transferrin and HNF-4α. On the other hand, the cells cultured in collagen and SF sponges for 3 weeks did not express these genes. These results indicated the very promising properties of Lac-CY-SF sponges as a scaffold for long-term culture of functional FLC-4 cells to study drug toxicity and hepatocyte metabolism in humans and develop a bioartificial liver model.     

Morphology, cytoskeletal organization, and myosin dynamics of mouse embryonic fibroblasts cultured on nanofibrillar surfaces

Growth of cells in tissue culture is generally performed on two-dimensional (2D) surfaces composed of polystyrene or glass. Recent work, however, has shown that such 2D cultures are incomplete and do not adequately represent the physical characteristics of native extracellular matrix (ECM)/basement membrane (BM), namely dimensionality, compliance, fibrillarity, and porosity. In the current study, a three-dimensional (3D) nanofibrillar surface composed of electrospun polyamide nanofibers was utilized to mimic the topology and physical structure of ECM/BM. Additional chemical cues were incorporated into the nanofibrillar matrix by coating the surfaces with fibronectin, collagen I, or laminin-1. Results from the current study show an enhanced response of primary mouse embryonic fibroblasts (MEFs) to culture on nanofibrillar surfaces with more dramatic changes in cell spreading and reorganization of the cytoskeleton than previously observed for established cell lines. In addition, the cells cultured on nanofibrillar and 2D surfaces exhibited differential responses to the specific ECM/BM coatings. The localization and activity of myosin II-B for MEFs cultured on nanofibers was also compared. A dynamic redistribution of myosin II-B was observed within membrane protrusions. This was previously described for cells associated with nanofibers composed of collagen I but not for cells attached to 2D surfaces coated with monomeric collagen. These results provide further evidence that nanofibrillar surfaces offer a significantly different environment for cells than 2D substrates.     

雪旺氏细胞与同种异体骨支架的体外共培养研究

目的:探讨雪旺细胞(Schwann’s cells,SCs)在同种异体骨支架上的生物相容性,体外构建组织工程骨神经化模型。方法:利用新鲜人体骨骼制备同种异体骨支架材料,检测其物理性能;采用优化方法提取新生SD大鼠坐骨、臂丛神经培养SCs,实验分为三维培养实验组(SCs+同种异体骨)、二维培养对照组(SCs+胶原玻片),S-100抗体免疫荧光染色鉴定SCs纯度;细胞计数法检测两组细胞增殖特点;细胞接种后第3、7天取样,扫描电镜观察。结果:同种异体骨支架具有良好的三维孔隙结构,适宜细胞贴附生长;S-100免疫荧光染色证实SCs纯度95%;扫描电镜检测显示两组SCs均可正常粘附增殖,细胞间排布规律相似,培养早期实验组SCs胞体更加细长,伪足更加明显,随着培养时间的延长表现出较强的迁移能力;细胞增殖检测:两组SCs生长曲线特征基本一致,支架材料对SCs无毒性作用。结论:同种异体骨支架SCs具有良好的生物相容性,其三维立体多孔结构有利于SCs的粘附与迁移,初步构建了体外组织工程骨神经化模型。     

Sensitization of HT29 colorectal cancer cells to vemurafenib in three‐dimensional collagen cultures

The extracellular matrix to which cancer cells adhere affects cellular sensitivity to anticancer drugs. We sought to examine the changes in sensitivity of colorectal cancer cells carrying the BRAF V600E mutation to vemurafenib cultured in three‐dimensional (3D) collagen‐I gels, while also identifying the signaling pathways involved in these changes. HT29 colorectal cancer cells were cultured in conventional tissue culture (TC) plastic plates or in collagen‐I gels. The HT29 cells demonstrated approximately 10‐fold higher sensitivity to vemurafenib in 3D‐collagen‐I gels compared with those cultured on conventional TC plastic plates. Furthermore, in cells cultured on TC plastic, vemurafenib was found to augment tyrosine phosphorylation of focal adhesion kinase (FAK), while 3D‐cultured cells expressed lower levels of FAK and vemurafenib did not affect its tyrosine phosphorylation, suggesting that FAK contributes to vemurafenib resistance. However, pharmacological inhibition of FAK did not sensitize the cells to vemurafenib. Also, the level of tyrosine‐phosphorylated epidermal growth factor receptor (EGFR)/ERBB2 family proteins was found to be lower in cells cultured in 3D‐collagen gel compared with those in cells cultured on TC plastic. Afatinib, an inhibitor of the EGFR/ERBB family of kinases, sensitized the cells to higher concentrations of vemurafenib, implying their participation in vemurafenib resistance. Adhesion to collagen‐I gel but not to the collagen‐I‐coated plastic surface sensitized the cells, suggesting that the rigidity of the media rather than adherence to collagen‐I may be important for cellular sensitivity to vemurafenib.