Imaging the Microprocesses in Biofilm Matrices.

Biofilms, which are aggregates of microorganisms and extracellular matrices, widely colonize natural water bodies, wastewater treatment systems, and body tissues, and have vital roles in water purification, biofouling, and infectious diseases. Recently, multiple imaging modalities have been developed to visualize the morphological structure and material distribution within biofilms and to probe the microprocesses in biofilm matrices, including biofilm formation, transfer and metabolism of substrates, and cell-cell communication. These technologies have improved our understanding of biofilm control and the fates of substrates in biofilms. In this review, we describe the principles of various imaging techniques and discuss the advantages and limitations of each approach to characterizing microprocesses in biofilm matrices.

[Effect of horizontal rotary culture on zebrafish vascular development].

With the development of space life science, a study on the influence of microgravity on organism has been an increasingly concerned topic. Lots of studies indicate that microgravity plays an important role in the early development of embryos. The vascular system as the first-function system of embryos provides an interesting topic for many researchers. However, those studies were mostly carried out in vitro by rotary cell culture system (RCCS), while few experiments were done in vivo. Using zebrafish as a model, this research investigated the effects of horizontal rotary culture on the vascular development in vivo. Zebrafish embryos at 24 hpf (hour post-fertilization) were selected and divided into two groups. One group was cultured by the shaker, and the other was cultured normally as the control. After 12 h, all the embryos were collected and detected. The phenotype of zebrafish was observed by stereo microscope. Then, the expression of vascular specific expression factor, flk1, flt4, and ephrinB2 was compared by RT-PCR, qPCR, and in situ hybridization, respectively. Cell apoptosis and proliferation in situ were observed using TUNEL assay and bromodeoxyuridine incorporation. The results demonstrated that horizontal rotary culture at 90 r/min decreased the hatching of embryos (10.3±0.41 vs. 0.0, P<0.05), accelerate the heart rate (223.5±2.32 vs. 185.0±3.23, P<0.05) and increased the content of melanin in zebrafish significantly. At the same time, we found some differences in the vascular system of zebrafish after horizontal rotary culture which caused a down regulation of flk1, flt4, and ephrinB2. On the other hand, horizontal rotary culture accelerated the apoptosis of cells in zebrafish, but showed no significance in proliferation. In conclusion, horizontal rotary culture has a significant influence on the vascular development in zebrafish.

Tumor suppressor miR-22 suppresses lung cancer cell progression through post-transcriptional regulation of ErbB3.

BACKGROUND: Development of efficient therapies of lung cancer and deep understanding of their anti-tumor mechanism are very important. The aim of the present study is to investigate the therapeutic effect of microRNA-22 (miR-22) on lung cancer using in vitro and in vivo methods. METHODS: Expression level of miR-22 in lung cancer specimens and relative normal tissues was detected by microRNA-specific quantitative real-time PCR (Q-PCR). Invasion assay, cell counting kit-8 assay, and Annexin V/7-AAD analysis were performed to test the invasion and proliferation of lung cancer cell after transfection. The effect of miR-22 on lung cancer in vivo was validated by murine xenograft model. RESULTS: Q-PCR detection of miR-22 in clinical samples showed that the relative expression level of miR-22 in lung cancer tissues and lung cancer cell lines was lower than that in normal tissues. Transfection of miR-22 expression plasmids could significantly inhibit the increased cell numbers and invasion of A549 and H1299 lung cancer cell lines. Furthermore, miR-22 was demonstrated to inhibit the expression of ErbB3 through post-transcriptional regulation via binding to ErbB3 3'-UTR. Co-transfection of ErbB3 expression plasmid could promote the proliferation and invasion of A549 and H1299. In vivo experiments using nude mice demonstrated that over-expression of miR-22 could significantly decrease the volume and weight of tumors. CONCLUSIONS: miR-22 exhibited excellent anti-lung cancer activity in vitro and in vivo, and post-transcriptional regulation of ErbB3 might be a potential mechanism.

Adrenomedullin promotes human endothelial cell proliferation via HIF-1α.

Adrenomedullin (ADM) and hypoxia-inducible factor-1α (HIF-1α) are important pro-proliferation genes in response to hypoxic stress. Although it was reported that ADM is a target gene for HIF-1, recent studies also showed that ADM regulates HIF-1 expression and its activity; however, the mechanism of action remains unknown. Two stable human endothelial cell lines with HIF-1α knockdown by hy926-siHIF-1α or HMEC-siHIF-1α were established. mRNA and protein expression of ADM and HIF-1α in EA.hy926 and HMEC1 cells were examined under hypoxic stress. Upon ADM treatment, cell proliferation was investigated and the expression profiles of HIF-1α and its target genes (VEGF, PFKP, PGK1, and AK1) were examined. Furthermore, the proline hydroxylase (PHD) mRNA level and its activity were investigated. We observed that mRNA and protein expression of ADM in hypoxia are earlier events than HIF-1α in EA.hy926 and HMEC1 cells. ADM-promoted cell proliferation of endothelial cells, which was HIF-1α dependent. We also found that ADM up-regulated the mRNA and protein expressions of HIF-1α- and HIF-1-targeted genes, and ADM up-regulated the protein expressions of HIF-1α through down-regulation of PHD mRNA expression and PHD activity.

[Effect of substrate stiffness on biological behavior of fibroblasts].

OBJECTIVE: To study the effect of substrate stiffness on proliferation, migration of fibroblast and integrin ß(1) expression in fibroblast. METHODS: Fibroblasts were inoculated on silicon substrate with stiffness of (16.2 ± 0.5), (19.8 ± 1.1), and (200.1 ± 2.6) kPa. After being cultured for 5 days or 6 days, cells were counted and cell proliferative activities (recorded as absorbance value) were assessed with methyl thiazolyl blue (MTT). After being cultured for 3 days, cell cycle was detected and proliferation index (PI) was calculated. The cell scratch test was used for determination of cell migration rate on post scratch day (PSD) 0 (the day of scratch), 1, 2, and 3. After being cultured for 2 days, the expression of integrin ß(1) was determined by flow cytometry with fluorescence. Data were processed with one-way analysis of variance. RESULTS: (1) The proliferative speed and proliferative activity of fibroblasts were all increased along with the increase in substrate stiffness. PI of fibroblasts inoculated on silicon substrate with stiffness of (16.2 ± 0.5), (19.8 ± 1.1), and (200.1 ± 2.6) kPa was respectively 24.8%, 27.4%, 32.4%. On PSD 2, migration rate of fibroblasts inoculated on silicon substrate with stiffness of (19.8 ± 1.1) and (200.1 ± 2.6) kPa was respectively (91.4 ± 5.1)%, (100.0 ± 1.3)%, which were higher than that of fibroblasts inoculated on silicon substrate with stiffness of (16.2 ± 0.5) kPa [(55.8 ± 6.8)%, with F value respectively 3.5, 4.0, P values all below 0.01]. (3) The expression rate of integrin ß(1) in fibroblasts inoculated on silicon substrate with stiffness of (16.2 ± 0.5) kPa was the lowest (43.22%), and that in fibroblast inoculated on silicon substrate with stiffness of (200.1 ± 2.6) kPa was the highest (81.26%). CONCLUSIONS: Substrate stiffness may have a great effect on proliferation and migration of fibroblast during the process of wound healing and scar formation, which can be related to regulation of integrin ß(1) expression.

[Effect of calcium on the activity and expression of integrin beta1 promoter in HaCaT cells and cell migration].

OBJECTIVE: To study the effect of calcium on the activity and protein expression of integrin beta1 promoter in human immortal keratinocyte colony HaCaT cell and cell migration. METHODS: (1) HaCaT cells were cultured in vitro (12-slot plate) and divided into 5 groups according to the random number table, with 18 slots in each group: reporter plasmid pGL3 promoter (positive control group, PC), pGL3 empty vector (negative control group, NC), pGL3-1756 bp (total length promoter group, TL), pGL3-1442 bp (distal promoter group, D), and pGL3-261 bp (proximal promoter group, P) was respectively used to transfect HaCaT cells in non-serum RPMI 1640 culture medium with 0.00, 0.03, 0.09, 0.30, 0.80, or 1.20 mmol/L calcium (3 slots in each group with each concentration). Luciferase activity was detected with dual-luciferase reporter assay system 24 hours after transfection. (2) HaCaT cells steadily transfected with small interfering RNA-integrin beta1 vector (steadily transfected in brief) constructed in our laboratory were normally cultured and divided into 6 parts according to the random number table. And then they were treated with former 6 different concentrations of calcium, with 3 samples for each concentration. Expression level of integrin beta1 protein was determined with Western blot. (3) Normal and steadily transfected HaCaT cells were cultured in 6-slot plate, 18 slots for each kind of cells. They were cultured with former 6 kinds of calcium culture media (divided according to the random number table, with 3 slots of cells for each concentration) for 12 hours after scratch test. Cell migration rate was observed and determined. (4) Data were processed with one-way analysis of variance and independent samples t test. RESULTS: (1) The luciferase activity of cells in TL group increased from 0.16+/-0.09 to 0.39+/-0.09 and 0.35+/-0.05 (with t value respectively 3.143, 3.140, P values all below 0.05) as calcium concentration increasing from 0.00 mmol/L to 0.09 and 0.30 mmol/L, and it decreased as calcium concentration increased to 0.80 and 1.20 mmol/L. The change pattern of luciferase activity of cells along with calcium concentration in D group was similar to that in TL group, but its activity (0.56+/-0.32, 0.64+/-0.06) at the concentration of 0.09, 0.30 mmol/L was respectively higher than that in TL group (with t value respectively 0.887, 6.122, P values all below 0.05). There was no obvious influence of calcium in either concentration on the luciferase activity of cells in P group. (2) The expression amount of integrin beta1 of steadily transfected HaCaT cells cultured with 0.03, 0.09, 0.30, 0.80, 1.20 mmol/L calcium (0.58+/-0.09, 1.40+/-0.29, 1.41+/-0.09, 0.99+/-0.10, 1.16+/-0.15) were all increased as compared with that cultured with 0.00 mmol/L calcium (0.53+/-0.10, with t value respectively 0.687, 4.880, 11.210, 5.578, 6.199, P values all below 0.05). (3) Migration speed of normal HaCaT cells cultured with 0.09, 0.30 mmol/L calcium increased obviously as compared with that cultured with 0.00 mmol/L calcium, and it slowed down when cultured with 0.80, 1.20 mmol/L calcium. There was no obvious difference of migration rate among steadily transfected HaCaT cells treated with different concentration of calcium. CONCLUSIONS: Distal promoter region of integrin beta1 plays a vital role in regulating integrin beta1 transcription in human epidermal cells. And calcium regulates activity, protein expression of integrin beta1 promoter and cell migration.