A Flexible Growth Function for Empirical Use

The application of an extended form of von Bertalanffy's growthfunction to plant data is considered; the equation has considerableflexibility, but is used only to supply an empirical fit. Inorder to aid the biological analysis of such growth data asare capable of representation by the function, general rateparameters are deduced which are related in a simple mannerto its constants.     

力生长因子表达调节及其功能机制

力生长因子(mechano growth factor,MGF)是胰岛素样生长因子1（insulin-like growth factor-1,IGF-1)的选择性剪接变异体,具有力敏感性.本文综述了MGF在组织细胞中的表达、调节及其功能机制的最新研究.首先阐述了MGF在多种细胞和组织中的表达和功能,其次说明MGF表达受应力、损伤、激素、温度等多种因素的调节.综述各项研究显示,MGF不依靠IGF-1R发挥作用,而是直接激活骨骼肌卫星细胞,促肌细胞增殖,进而促骨骼肌肥大,修复受损肌肉. 通过激活Erk磷酸化促成肌细胞增殖、保护心肌细胞,上调血红素加氧酶-1（heme oxygenase-1,HO-1）,激活蛋白激酶Cε(protein kinase Cε,PKCε）和NF-E2-相关因子2（NF-E2-related factor2,Nrf2 )发挥保护神经的作用.另外,MGF发挥作用还可能与Wnt/β-catenin信号有关.对MGF作用及其作用机制深入研究有助于未来MGF在临床的运用.     

成纤维细胞生长因子的特性与分子功能

成纤维细胞生长因子(FGFs)是一类蛋白质活性肽,在有机体内外显示广谱的生物学活性和功能,在生物发育学、生理学与临床药理学方面具有重要的作用和意义．对 FGFs 家族成员肽的特征特性,FGFs 的染色体定位、基因结构与功能,FGFs 的信号分子作用与促分裂素作用,FGFs 的作用受体、主动和被动调节与拮抗机理进行了综述．     

胰岛素样生长因子IGF系统与鱼类性腺的研究进展

IGFs系统包含3个配体(IGF-1、IGF-2、IGF-3)、2个受体(IGF-1R、IGF-2R)和6个IGF结合蛋白(IGFBP).生殖和生长是生物体最基本的特征,两者既密切相关又相互区别,胰岛素样生长因子(IGFs)是生长轴和生殖轴相交联的关键因子.最近研究表明:鱼类性腺的发育及成熟伴随着细胞分化和组织生长,传统的生长因子IGF-1、IGF-2和最近发现的IGF-3,对鱼类性腺发挥着重要作用.本文重点介绍鱼类特有的配体IGF-3的结构,鱼类IGFs系统的信号通路及其与鱼类性腺的相关性研究进展.     

Insulin-Like Growth Factor I Receptor Expression and Function in Nerve Growth Factor-Differentiated PC12 Cells

Abstract: Receptors for insulin-like growth factor I (IGF-I) were studied on PC12EY cells, a subclone of PC12. Differentiation of PC12EY cells with nerve growth factor (NGF) did not alter either the number of IGF-I receptors nor their affinity for IGF-I. IGF-I receptors remained fully functional during differentiation, promoting increases in thymidine incorporation, glucose uptake, amino acid uptake, and the phosphorylation of the S6 protein of the ribosomes. IGF-I also increased the proportion of differentiated cells found in S-phase. But although the addition of IGF-I to naive cells caused an increase in cell number, there was no comparable increase when IGF-I was added to differentiated cells. Thus, although the receptor for IGF-I continues to be present and functional, IGF-I fails to induce cell proliferation in differentiated PC12 cells.     

Placental and Embryonic Growth Restriction in Mice With Reduced Function Epidermal Growth Factor Receptor Alleles

Embryos lacking an epidermal growth factor receptor (EGFR) exhibit strain-specific defects in placental development that can result in mid-gestational embryonic lethality. To determine the level of EGFR signaling required for normal placental development, we characterized congenic strains homozygous for the hypomorphic Egfr^wa2 allele or heterozygous for the antimorphic Egfr^Wa5 allele. Egfr^wa2 homozygous embryos and placentas exhibit strain-dependent growth restriction at 15.5 days post-coitus while Egfr^Wa5 heterozygous placentas are only slightly reduced in size with no effect on embryonic growth. Egfr^wa2 homozygous placentas have a reduced spongiotrophoblast layer in some strains, while spongiotrophoblasts and glycogen cells are almost completely absent in others. Our results demonstrate that more EGFR signaling occurs in Egfr^Wa5 heterozygotes than in Egfr^wa2 homozygotes and suggest that Egfr^wa2 homozygous embryos model EGFR-mediated intrauterine growth restriction in humans. We also consistently observed differences between strains in wild-type placenta and embryo size as well as in the cellular composition and expression of trophoblast cell subtype markers and propose that differential expression in the placenta of Glut3, a glucose transporter essential for normal embryonic growth, may contribute to strain-dependent differences in intrauterine growth restriction caused by reduced EGFR activity.EPIDERMAL growth factor receptor (EGFR) is the prototypical member of the ERBB family of receptor tyrosine kinases and is known to regulate many aspects of cellular biology including cell proliferation, survival, differentiation, and migration (reviewed in Yarden and Sliwkowski 2001). Eleven known ligands bind the extracellular region of ERBB-family receptors, and activation of the tyrosine kinase domain occurs following receptor homo- or heterodimerization. The resulting biological responses are dependent upon specific signaling cascades initiated by ERBBs and can be influenced by the particular ligand–ERBB combination (Yarden and Sliwkowski 2001). Studies using cultured cells have underscored the importance of EGFR in modulating various cellular processes, while animal models have been able to demonstrate that EGFR is required for numerous developmental and physiological processes (Casalini et al. 2004). In vivo studies have shown that EGFR is particularly important for normal placental development in mice; placentas from Egfr nullizygous (Egfr^{tm1Mag/tm1Mag}) embryos exhibit strain-specific defects that result in differential embryonic lethality (Sibilia and Wagner 1995; Threadgill et al. 1995). Two additional Egfr alleles result in reduced EGFR signaling in mice: the recessive hypomorphic Egfr^wa2 and dominant antimorphic Egfr^Wa5 alleles (Luetteke et al. 1994; Fowler et al. 1995; Du et al. 2004; Lee et al. 2004). These alleles can provide insight into the level of EGFR signaling required for normal placental development.Egfr^wa2 is a classical spontaneous mutation that arose in 1935 that causes a distinct wavy coat phenotype in the homozygote (Figure 1; Keeler 1935). This recessive mutation was subsequently found to be a single nucleotide transversion resulting in a valine → glycine substitution in the highly conserved kinase domain of EGFR (Luetteke et al. 1994; Fowler et al. 1995). Since mice homozygous for the Egfr^tm1Mag null allele die before or shortly after birth depending on genetic background, the hypomorphic Egfr^wa2 allele has been the primary model used to study the effect of attenuated EGFR signaling in a variety of adult physiological and disease states. In addition to eye and hair phenotypes, the adult Egfr^wa2 homozygous mouse exhibits delayed onset of puberty, abnormal ovulation, enlarged aortic valves and cardiac hypertrophy, decreased body size, defects in mammary gland development and lactation, increased susceptibility to colitis, and impaired intestinal adaptation following small bowel resection (Fowler et al. 1995; Helmrath et al. 1997; Chen et al. 2000; Egger et al. 2000; O''Brien et al. 2002; Prevot et al. 2005; Hsieh et al. 2007). Despite the widespread use of the Egfr^wa2 allele, there are limitations in using Egfr^wa2 homozygous mice to clearly define the physiological roles of EGFR. Egfr^wa2 has traditionally been maintained in cis, tightly linked with a hypomorphic Wnt3a allele, Wnt3a^vt (vestigal tail), making phenotypic analysis of reduced EGFR signaling by itself difficult. Furthermore, Egfr^wa2 has also typically been maintained on a mixed genetic background and since the Egfr nullizygous phenotype is similarly influenced by genetic modifiers, a mixed background could mask phenotypes that become evident when Egfr^wa2 mice are inbred.Open in a separate windowFigure 1.—Congenic 129 Egfr allelic series. Wild-type (left), Egfr^wa2 homozygote (middle), and Egfr^wa5 heterozygote (right) mice. As weanlings and adults, the Egfr^wa2 homozygotes and Egfr^wa5 heterozygotes are grossly indistinguishable.The Egfr^Wa5 allele arose in a large, genomewide N-ethyl-N-nitrosourea mutagenesis screen for dominant visible mutations in the mouse. Egfr^Wa5 heterozygous mice were first identified by their open eyelids at birth and by development of a wavy coat, similar to the phenotype of Egfr^wa2 homozygous mice (Figure 1). Egfr^Wa5 failed to complement the Egfr^tm1Mag null allele and was shown to function as an antimorph since Egfr^Wa5, but not Egfr^tm1Mag, heterozygotes exhibit eyelid and coat phenotypes (Lee et al. 2004). A single nucleotide missense mutation was found in the Egfr^Wa5 allele that results in an Asp → Gly substitution in the highly conserved DFG domain of the EGFR kinase catalytic loop (Du et al. 2004; Lee et al. 2004). Although Egfr^Wa5 heterozygotes are viable, Egfr^Wa5 homozygotes die prenatally and exhibit placental defects identical to those from Egfr^tm1Mag homozygous null embryos. Placentas from Egfr^Wa5 heterozygotes on a mixed background show variable reduction in the spongiotrophoblast layer and minor abnormalities in the labyrinth region, but no effects on embryo survival have been reported.In vitro studies with Egfr^Wa5 suggest that it encodes a kinase-dead EGFR since no phosphorylation of EGFR^Wa5 is detected following stimulation with ligands. In agreement with the genetic data showing that Egfr^Wa5 is an antimorph, in vitro studies have demonstrated that the EGFR^Wa5 receptor can inhibit phosphorylation of EGFR and MAPK in a dose-dependent manner (Lee et al. 2004). In Chinese hamster ovary cells expressing an equimolar ratio of EGFR and EGFR^Wa5 receptors, <10% of wild-type phosphorylation levels were observed by Western blot analysis.The Egfr allelic series available in the mouse has high utility for studying gene function since EGFR is involved in a multitude of developmental processes and human diseases. Although both Egfr^wa2 and Egfr^Wa5 alleles result in reduced EGFR signaling, the activity and phenotypic consequences of Egfr^wa2 homozygosity has not been compared to that of Egfr^Wa5 heterozygosity when both are on the same genetic backgrounds. Adult Egfr^Wa5 heterozygous mice appear highly similar to Egfr^wa2 homozygotes, but crosses with the Apc^Min intestinal tumor model have shown that a more substantial reduction in tumor number occurs when the Apc^Min mutation is bred onto the Egfr^wa2 homozygous vs. Egfr^Wa5 heterozygous background (Roberts et al. 2002; Lee et al. 2004). These results suggest that Egfr^Wa5 heterozygous mice retain higher levels of EGFR activity than Egfr^wa2 homozygous mice; however, the data are confounded by the fact that the crosses were performed using different mixed genetic backgrounds.This study reports a comprehensive genetic analysis of reduced EGFR signaling in Egfr^wa2 homozygotes and Egfr^Wa5 heterozygotes in placental development and embryonic growth for three congenic backgrounds, C57BL/6J (B6), 129S1/SvImJ (129), and BTBR/J-T+, tf/tf (BTBR). Wild-type placenta weight, embryo weight, and mRNA levels of genes selected for their trophoblast-specific expression were found to be highly strain dependent. Egfr^wa2 homozygous placentas are reduced in size in all three strains, and a proportion of 129-Egfr^wa2 homozygotes die before 15.5 days post-coitus (dpc). Egfr^wa2 homozygous embryos also display background-dependent intrauterine growth restriction (IUGR) in late gestation, which is most severe on 129 and BTBR backgrounds and models EGFR-associated IUGR in humans. Egfr^Wa5 heterozygous placentas exhibit a minor reduction in size on all three backgrounds with no impact on embryonic growth. These results suggest that reduced levels of EGFR signaling can interfere with normal placental development and that embryo development is affected only after placental size is sufficiently reduced. In addition, our data show that the level of EGFR signaling in Egfr^Wa5 heterozygous mice is higher than in Egfr^wa2 homozygotes and suggests that different Egfr allele combinations can be generated to “genetically titer” total EGFR activity in vivo.     

马尾松直径生长与气候的非线性响应函数

 在Fritts响应函数基础上,提出一种树木生长对各气候变量的非线性响应函数。该响应函数把气候变量的交互作用(各气候变量乘积)之和进行合并,不仅防止了自由度的显著下降,而且还有助于了解各气候变量交互作用对树木生长的平均效应。一组马尾松芯样(15株树,30个芯样,位于马尾松分布带北端)经定年和除趋势后得到的年轮年表与各月平均气温、降水量的关系,经该非线性响应函数分析,表明所取马尾松对前1年11月、当年2、5、8、9、11月的降水量的平方有显著正响应;对前1年12月、当年3、8、12月的平均气温之平方有显著正响应,而对当年2月的平均气温的平方有显著负响应。     

mTOR和PLGF在胎儿宫内生长受限中的作用机制

胎儿宫内生长受限(IUGR)是一种常见孕期疾病,有报道称其与滋养细胞的侵袭能力减弱有关,而mTOR和PLGF对滋养细胞侵袭有重要作用。为了探究m TOR和PLGF对滋养细胞侵袭力的影响,明确两者在IUGR发生和发展过程中的作用机制,本研究以孕早期人滋养细胞Swan 71为对象,利用雷帕霉素抑制mTOR的活化,通过小室侵袭实验、基因沉默和蛋白印迹法(Western blotting)观察了滋养细胞侵袭力和相关基因表达的变化,以及外源PLGF的添加对其结果有无影响。结果表明m TOR磷酸化受到抑制会导致滋养细胞的侵袭能力减弱,而PLGF能改善这种减弱现象,改善机制与增强p70、ERK和AKT磷酸化有关。然而,当mTOR基因被沉默后,PLGF就不能再改善或逆转因m TOR磷酸化缺失带来的细胞侵袭力的减弱。此外,本研究还发现mTOR磷酸化能调控PLGF和sflt-1的表达,后两者在IUGR发展中,常因为滋养细胞侵袭力的减弱而受到影响。     

F-box蛋白质在植物生长发育中的功能

在真核生物中, 泛素介导的蛋白降解途径参与了许多生物学过程。SCF复合体是一种非常重要的E3泛素连接酶, 在植物中研究的最为深入。F-box蛋白包含一个F-box 基序, 是SCF复合体的一个亚基, 它决定了底物识别的特异性。目前, 从各种植物中已鉴定出大量的F-box蛋白质, 它们参与了植物激素(乙烯, 生长素, GA, JA)的信号传导以及自交不亲和、花器官发育等生物学过程, F-box蛋白还参与了植物的胁迫反应。最新研究结果显示, 一个F-box蛋白TIR1是生长素的受体。因此, F-box蛋白质介导的泛素化蛋白质降解途径可能是植物基因表达调控的重要机制。     

F-box蛋白在植物生长发育中的功能研究进展

在真核生物中,由泛素介导的蛋白降解途径与植物生长发育密切相关。F-box蛋白家族是一类含有Fbox基序(motif),在泛素介导的蛋白质水解过程中具有底物识别特性的蛋白质家族。目前,从各种植物中已鉴定出大量的F-box蛋白质,这类蛋白质在植物激素的信号转导、光信号转导、自交不亲和以及花器官发育等许多生理过程中都具有重要功能。研究发现F-box蛋白在调控植物生长发育过程中所发挥的功能与其结构及泛素蛋白酶体途径密切相关。     

DEAD-box基因家族在拟南芥生长发育中的作用

在RNA代谢过程中,需要许多蛋白和核酸的参与,其中一类蛋白就是RNA解旋酶。RNA解旋酶通过水解ATP获得能量来参与RNA代谢的多个方面,包括核内转录、pre-mRNA的剪切、核糖体发生、核质运输、蛋白质翻译、RNA降解、细胞器内基因的表达。DEAD-box蛋白家族是RNA解旋酶中最大的亚家族,它具有9个保守结构域,因motifyⅡ的保守氨基酸序列Asp-Glu-Ala-Asp(DEAD)而命名。该家族在酵母、拟南芥(Arabidopsis thaliana Heynh.)和人类基因组中都有较多的家庭成员。近年来,研究者对拟南芥DEAD-box蛋白家族的结构和功能进行了一些研究,本文着重总结DEAD-box基因家族对拟南芥生长发育的影响。     

Longitudinal Lung Function Growth of Mexican Children Compared with International Studies

Introduction

Our aim was to compare the longitudinal lung function growth of Mexican children and adolescents with the collated spirometric reference proposed for international use and with that of Mexican-Americans from the National Health State Examination Survey III (NHANES) III study.

Materials and Methods

A cohort of Mexican children in third year of primary school was followed with spirometry twice a year through secondary school. Multilevel mixed-effects lineal models separated by gender were fit for the spirometric variables of 2,641 respiratory-healthy Mexican children expressed as Z-scores of tested reference equations. Impact of adjustment by sitting height on differences with Mexican-American children was observed in a subsample of 1,987 children.

Results

At same gender, age, and height, Mexican children had increasingly higher forced expiratory volume in 1 s (FEV₁) and Forced vital capacity (FVC) than the children from the collated reference study (mean Z-score, 0.68 for FEV₁ and 0.51 for FVC) and than Mexican-American children (Z-score, 0.23 for FEV₁ and 0.21 for FVC) respectively. Differences with Mexican-Americans were not reduced by adjusting by sitting height.

Conclusions

For reasons that remain unclear, the gender-, age-, and height-adjusted lung function of children from Mexico City is higher than that reported by several international studies.     

结缔组织生长因子对血管生成和细胞功能的调节

结缔组织生长因子(CTGF)是CCN家族的主要成员,是研究较多的CCN蛋白之一。CTGF能促进细胞的增殖、存活、迁移和黏附,调节血管生成分子(bFGF,VEGF)以及一些影响胞外基质完整性和稳定性的分子(胶原、MMPs和TIMPs)的活性。CTGF可以在多个控制位点采取直接或间接的机制调控细胞功能和血管生成。结合新的发现和新的视点,阐述CTGF对细胞功能和血管生成的调控作用以及与肿瘤生长的关系。     

生长激素释放肽的结构和功能

生长激素释放肽(growth hormone releasing peptide,Ghrelin,GHRP),是最近发现的可以促进GH分泌的肽激素,主要来源于胃,有28个氨基酸残基,其第三位氨基酸残基(一般是丝氨酸)被脂肪酸修饰,实验证明被修饰的N端是其活性核心部位。该文介绍ghrelin的主要结构和生物学功能。     

Disruption of Lysosome Function Promotes Tumor Growth and Metastasis in Drosophila

Lysosome function is essential to many physiological processes. It has been suggested that deregulation of lysosome function could contribute to cancer. Through a genetic screen in Drosophila, we have discovered that mutations disrupting lysosomal degradation pathway components contribute to tumor development and progression. Loss-of-function mutations in the Class C vacuolar protein sorting (VPS) gene, deep orange (dor), dramatically promote tumor overgrowth and invasion of the Ras^V12 cells. Knocking down either of the two other components of the Class C VPS complex, carnation (car) and vps16A, also renders Ras^V12 cells capable for uncontrolled growth and metastatic behavior. Finally, chemical disruption of the lysosomal function by feeding animals with antimalarial drugs, chloroquine or monensin, leads to malignant tumor growth of the Ras^V12 cells. Taken together, our data provide evidence for a causative role of lysosome dysfunction in tumor growth and invasion and indicate that members of the Class C VPS complex behave as tumor suppressors.     

生长因子Progranulin的结合受体和生物学功能

生长因子颗粒素蛋白前体（progranulin, PGRN）广泛存在于动物和植物组织中.研究证明,哺乳动物的PGRN是一个多功能分子,在组织/器官发育、细胞分化、肿瘤发生发展、炎症应答以及神经退行性疾病中均具有重要的作用.PGRN发挥生物学功能需要和多种结合蛋白相互结合,例如sortilin、Toll样受体9（TLR9）、肿瘤坏死因子受体（TNFR）及分泌性淋巴细胞蛋白酶抑制因子（SLPI）等. 本文将对PGRN的结合受体和生物学功能进行综述.     

角质细胞生长因子及其对消化道损伤的防治作用

角质细胞生长因子（KGF）是成纤维细胞生长因子家族的一员,它通过与KGF受体（KGFR）的结合,特异性地刺激上皮细胞的增殖,对皮肤、胃、肠、肾、膀胱、肺等上皮的损伤有修复作用,能减少放、化疗所带来的副作用。目前研究较多的是KGF对消化道损伤的防护以及损伤后的治疗作用。     

Disruption of Vps4 and JNK Function in Drosophila Causes Tumour Growth

Several regulators of endocytic trafficking have recently been identified as tumour suppressors in Drosophila. These include components of the endosomal sorting complex required for transport (ESCRT) machinery. Disruption of subunits of ESCRT-I and –II leads to cell-autonomous endosomal accumulation of ubiquitinated receptors, loss of apicobasal polarity and epithelial integrity, and increased cell death. Here we report that disruption of the ATPase dVps4, the most downstream component of the ESCRT machinery, causes the same array of cellular phenotypes. We find that loss of epithelial integrity and increased apoptosis, but not loss of cell polarity, require the activation of JNK signalling. Abrogation of JNK signalling prevents apoptosis in dVps4 deficient cells. Indeed double deficiency in dVps4 and JNK signalling leads to the formation of neoplastic tumours. We conclude that dvps4 is a tumour suppressor in Drosophila and that JNK is central to the cell-autonomous phenotypes of ESCRT-deficient cells.     

Fraction of Ribosomes Synthesizing Protein as a Function of Specific Growth Rate

The fraction of ribosomes engaged in protein synthesis in Escherichia coli growing at specific growth rates ranging from 0.3 to 1.2 h(-1) was estimated from measurements of nascent protein/ribosome and of polyribosomes. Both measurements showed that the fraction of ribosomes synthesizing protein increased with specific growth rate, from 30 to 70% over the range studied. Polyribosome measurements made at different specific growth rates in four E. coli strains showed no significant differences between strains. The increase in the fraction of polyribosomes had begun within 30 s after a shift-up from glucose-minimal medium, and was complete within 2 to 5 min. These results indicate that the function of ribosomes is regulated.