Absence of feedback regulation in the synthesis of COL1A1

Aim

Recent studies have emphasized the importance of the extracellular microenvironment in modulating cell growth, motility, and signalling. In this study we have evaluated the ability of a fibroblast derived-extracellular matrix (fd-ECM) to regulate type I collagen synthesis and degradation in fibroblasts.

Main methods

Fibroblasts were plated on plastic (control) or on fd-ECM and type I collagen synthesis and degradation was evaluated. MTT, western blotting, real time PCR, zymographic analysis and inhibitor assays were utilised to investigate the molecular mechanism of type I collagen regulation by the fd-ECM.

Key findings

Fibroblasts plated on fd-ECM showed significant downregulation in the production of type I collagen and COL1A2 messenger ribonucleic acid (mRNA) whilst COL1A1 mRNA remained unchanged. Cells grown on fd-ECM exhibited increased matrix metalloproteases (MMPs) and their corresponding mRNAs. The use of transforming growth factor β (TGF-β) and MMP inhibitors showed that the excess COL1A1 polypeptide chains were degraded by the combined action of MMP-1, MMP-2, MMP-9 and cathepsins.

Significance

These results show the crucial role played by proteases in regulating extracellular matrix protein levels in the feedback regulation of connective tissue gene expression.     

Glucocorticoid and retinoid regulation of alpha-2 type I procollagen promoter activity.

Glucocorticoids decrease type I procollagen synthesis by decreasing the steady state levels of procollagen mRNAs and mRNA synthesis. The present studies were undertaken to determine the functional sequences of the pro alpha 2(I) collagen gene required for the glucocorticoid-mediated decrease of type I procollagen mRNA synthesis. Embryonic mouse fibroblasts were stably transfected with the pR40 DNA CAT construct containing the 5' flanking region fragment from -2048 to +54 and the intronic fragment from +418 to +1524 of the mouse alpha 2(I) collagen gene. Dexamethasone treatment of these pR40 transfected fibroblasts resulted in a significant decrease in CAT activity which agrees with the glucocorticoid-mediated decrease of the steady state levels of type I procollagen mRNAs. To determine the possible role of the first intron fragment in the dexamethasone-mediated decrease of CAT activity, pR36, a CAT plasmid containing the first intron fragment and the SV40 early promoter, was transfected into mouse fibroblasts and treated with dexamethasone. No significant decrease in CAT activity was observed. The dexamethasone-mediated response was then localized within the 5' flanking region by preparing a series of constructs containing internal deletions and transfecting these plasmids into mouse fibroblasts. The regions -2048 to -981 and -506 to -351 were required for the dexamethasone response of gene activity. However, the DNA stretch from -981 to -506 was not. Analysis of the DNA sequences of these regions revealed a single GRE at -1023 to -1018 and a modified doublet at -873 to -856.(ABSTRACT TRUNCATED AT 250 WORDS)     

Chronic exposure of bone morphogenetic protein-2 favors chondrogenic expression in human articular chondrocytes amplified in monolayer cultures

Articular cartilage is a specialized connective tissue containing chondrocytes embedded in a network of extracellular macromolecules such as type II collagen and presents poor capacity to self-repair. Autologous chondrocyte transplantation (ACT) is worldwide used for treatment of focal damage to articular cartilage. However, dedifferentiation of chondrocytes occurs during the long term culture necessary for mass cell production. The aim of this study was to investigate if addition of bone morphogenetic protein (BMP)-2, a strong inducer of chondrogenic expression, to human chondrocytes immediately after their isolation from cartilage, could help to maintain their chondrogenic phenotype in long-term culture conditions. Human articular chondrocytes were cultured according to the procedure used for ACT. Real-time PCR and Western blotting were performed to evaluate the cellular phenotype. Exogenous BMP-2 dramatically improves the chondrogenic character of knee articular chondrocytes amplified over two passages, as assessed by the BMP-2 stimulation on type II procollagen expression and synthesis. This study reveals that BMP-2 could potentially serve as a therapeutic agent for supporting the chondrogenic phenotype of human articular chondrocytes expanded in the conditions generally used for ACT.     

Distinct functions of BMP4 and GDF5 in the regulation of chondrogenesis

Bone morphogenetic protein 4 (BMP4) and growth/differentiation factor 5 (GDF5) are closely related protein family members and regulate early cartilage patterning and differentiation. In this study, we compared the functional outcome of their actions systematically at various stages of chondrogenesis in mouse embryonic limb bud mesenchyme grown in micromass cultures. Overall, both growth factors enhanced cartilage growth and differentiation in these cultures. Uniquely, BMP4 not only accelerated the formation and maturation of cartilaginous nodules, but also induced internodular mesenchymal cells to express cartilage differentiation markers. On the other hand, GDF5 increased the number of prechondrogenic mesenchymal cell condensation and cartilaginous nodules, without altering the overall pattern of differentiation. In addition, GDF5 caused a more sustained elevated expression level of Sox9 relative to that associated with BMP4. BMP4 accelerated chondrocyte maturation throughout the cultures and sustained an elevated level of Col10 expression, whereas GDF5 caused a transient increase in Col10 expression. Taken together, we conclude that BMP4 is instructive to chondrogenesis and induces mesenchymal cells toward the chondrogenic lineage. Furthermore, BMP4 accelerates the progression of cartilage differentiation to maturation. GDF5 enhances cartilage formation by promoting chondroprogenitor cell aggregation, and amplifying the responses of cartilage differentiation markers. These differences may serve to fine-tune the normal cartilage differentiation program, and can be exploited for the molecular manipulation in biomimetics.     

High-level salivary gland expression in transgenic mice

A 7.1 kb mini-gene construct containing cloned DNA from the murine parotid secretory protein (PSP) gene with 6.2 kb of the promoter, has previously been shown to direct specific mRNA expression to the salivary glands in transgenic mice. However, the level of transgene expression in the parotid gland was only a few percent of the endogenous level. This indicated that elements necessary for high-level expression are still to be found. In this study, we have searched for such regulatory elements in additional flanking regions by using a 25 kb clonedPsp ^b fragment containing the complete structural gene, 11.4 kb of 5-flanking sequence, and 2.5 kb 3-flanking sequence as a transgene. To distinguish the expression of the transgene from that of the endogenous gene, we took advantage of an allelic difference, using an oligonucleotide that recognized the mRNA fromPsp ^b and the transgene but not that from the other allele,Psp ^a . The expression of the transgene was examined in animals homozygous forPsp ^a . Three independent integrations all exhibited a level of parotid-gland-specific expression that corresponded to that of the endogenous gene. Thus, sequences responsible for this high-level PSP mRNA expression are situated within the genomic DNA of the transgene.     

Myelin proteolipid protein (Plp) intron 1 DNA is required to temporally regulate Plp gene expression in the brain

The myelin proteolipid protein (Plp) gene encodes the most abundant protein found in mature CNS myelin. Expression of the gene is regulated spatiotemporally, with maximal expression occurring in oligodendrocytes during the myelination period of CNS development. Plp gene expression is tightly controlled. Misregulation of the gene in humans can result in the dysmyelinating disorder Pelizaeus-Merzbacher disease, and in transgenic mice carrying a null mutation or extra copies of the gene can result in a variety of conditions, from late onset demyelination and axonopathy, to severe early onset dysmyelination. In this study we have examined the effects of Plp intron 1 DNA in mediating proper developmental expression of Plp-lacZ fusion genes in transgenic mice. Our results reveal the importance of Plp intron 1 sequences in instigating the expected surge in Plp-lacZ gene activity during (and following) the active myelination period of brain development. Transgene expression was also detected in the testis (Leydig cells), however, the presence or absence of Plp intron 1 sequences had no effect on the temporal profile in the testis. Surprisingly, expression of the transgene missing Plp intron 1 DNA was always higher in the testis, as compared to the brain, in all of the transgenic lines generated.     

模拟微重力诱导的细胞微丝变化影响COL1A1启动子活性

细胞骨架系统是细胞内的重力感受系统。已知微重力导致的细胞形态、功能、信号传导等多种变化均与细胞骨架系统变化有关,但微重力对相关基因调控的影响知之甚少。本研究以构建的基因工程细胞株（EGFP-ROS）为对象,以回转器模拟微重力效应,利用增强型绿色荧光蛋白（enhanced green fluorescence protein,EGFP）荧光半定量和细胞微丝荧光染色分析技术,探讨回转模拟微重力条件下,细胞微丝系统对Ⅰ型胶原α1链基因（collagen type Ialpha chain 1 gene,COL1A1）启动子活性的影响。空间飞行和回转模拟微重力后,细胞微丝解聚、张力纤维减少,表明微重力可降低细胞微丝结构的有序性,诱导细胞骨架重排。适合剂量的细胞松弛素B处理EGFP-ROS细胞诱导微丝骨架解聚,同时导致COL1A1启动子活性增加,细胞荧光强度增强,并呈现剂量依赖性。因此,一定程度的细胞微丝系统破坏将导致COL1A1启动子活性的增强,证明细胞微丝骨架系统参与了微重力对COL1A1启动子活性调节,且在微重力信号传导中起重要作用。     

Study of cryopreservation of articular chondrocytes using the Taguchi method

This study evaluates the effect of control factors on cryopreservation of articular cartilage chondrocytes using the Taguchi method. Freeze-thaw experiments based on the L₈(2⁷) two-level orthogonal array of the Taguchi method are conducted, and ANOVA (analysis of variables) is adopted to determine the statistically significant control factors that affect the viability of the cell. Results show that the type of cryoprotectant, freezing rate, thawing rate, and concentration of cryoprotectant (listed in the order of influence) are the statistically significant control factors that affect the post-thaw viability. The end temperature and durations of the first and second stages of freezing do not affect the post-thaw viability. Within the ranges of the control factors studied in this work, the optimal test condition is found to be a freezing rate of 0.61 ± 0.03 °C/min, a thawing rate of 126.84 ± 5.57 °C/min, Me₂SO cryoprotectant, and a cryoprotectant concentration of 10% (v/v) for maximum cell viability. In addition, this study also explores the effect of cryopreservation on the expression of type II collagen using immunocytochemical staining and digital image processing. The results show that the ability of cryopreserved chondrocytes to express type II collagen is reduced within the first five days of monolayer culture.     

高等植物赤霉素2-氧化酶基因的克隆、表达及其调控

赤霉素(GA)是一类重要的植物激素,对高等植物整个生命周期的生长发育起关键作用。调控赤霉素生物合成和代谢途径中的关键酶基因的表达可以控制植物体内赤霉素的含量。GA2-氧化酶是调节赤霉素合成和代谢的关键酶之一,使活性GA失活。本文主要对GA2-氧化酶基因的克隆、表达调控及其在植物基因工程中的应用等方面进行综述,为通过基因工程技术调控植物体内活性赤霉素的含量从而得到改良品种提供思路。     

成簇基因的时空表达调控

成簇基因具有不同单个基因的特性,同一簇内基因大多有类似的结构,功能以及表达模式,基因之间时空表达模式及表达量高度协调,提示同一簇基因是作为统一整体进行调节的,具有共同的调节机制。基因成簇排列是实现基因时空协调表表达的基础,是遗传信息的一种高级组织形式,具有强大的进化优势,要揭示成簇基因表达调控的基本规律,应从顺式作用元件,反式作用因子,染色质等层次,进行整体的以及多基因相互作用的研究,这些机制的阐