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91.
Summary Chloroplasts and pigment granules are known to be intracellularly translocated upon discrete extracellular stimuli. The machineries transducing these signals inside cells are yet not understood. In studies investigating the motility of peroxisomes, we were able to identify both extracellular and intracellular signaling steps regulating movements of these organelles. Following simultaneous stimulation of CHO cells with both extracellular ATP and lysophosphatidic acid, an arrest of peroxisomes was observed. This block of motility was shown to be dependent on signaling cascades involving heterotrimeric G proteins of the class Gi/Go, phospholipase C, calcium influx, and activation of protein kinase C as well as of mitogen-activated protein kinase. Cytosolic phospholipase A2 is a point of convergence for these pathways, resulting in the release of arachidonic acid. This signaling pathway is specific for peroxisomes and does not influence motility of mitochondria, lysosomes, or endosomes. However, since the cytoskeleton and its associated proteins including the motor proteins play an important role in mediating motility of all cell organelles, it may well be that variant signaling cascades exist ensuring specific regulation of each distinct compartment.Abbreviations AA
arachidonic acid
- ATPS
adenosine-5-O-(3-thiotriphosphate)
- cAMP
cyclic adenosine monophosphate
- CaM-PK
calmodulin-dependent protein kinase
- CLIP
cytosolic linker protein
- DAG
diacylglycerol
- DiC8
1,2-dioctanoyl-sn-glycerol
- GFP
green-fluorescent protein
- GTPS
guanosine-5-O-(3-thiotriphosphate)
- IP3
inositol trisphosphate
- LPA
lysophosphatidic acid
- MAPK
mitogen-activated protein kinase
- MEK MAPK
kinase
- PKA
protein kinase A
- PKC
protein kinase C
- cPKC
classical PKC isoforms
- PLA2
phospholipase A2
- PLAP
PLA2-activating proteinpeptide
- PLC
phospholipase C
- PP2A
protein phosphatase 2A 相似文献
92.
Virginia Ladeda Julio A.Aguirre Ghiso Elisa Bal de Kier Joffé 《Experimental cell research》1998,242(2):515
The cell surface glycoprotein CD44 is proposed as a main participant in cell adhesion and migration. We studied the function, expression, and distribution of CD44 in the invasive and metastatic F3II murine carcinoma cell line during adhesion, spreading, migration, and invasion. A mAb anti-CD44 (KM 201) dramatically blocked F3II cell adhesion on both plastic and hyaluronic acid coatings, as well as spreading on uncoated plastic surfaces (P< 0.01). KM201 mAb significantly inhibited F3II cell migration and invasion in Transwell chambers. Immunocytochemistry of spreading cells revealed that CD44 distributed in bands on the cell surface, particularly in the tip of leading edges and in the perinuclear zones of the cell membrane. CD44 antigen was never detected in filopodia or lamellipodia nor in focal adhesion-like structures, but was also detectable as strong interlamellar bands. Fully spread cells showed a decreased CD44 signal compared to cells in early stages of spreading. This decrease correlated with a reduced expression of CD44 as detected by Western blot. We also investigated the signals that may regulate CD44 expression in F3II cells. Treatment of F3II cells, with phorbol myristate acetate (PMA) or phosphatidic acid (PA, the product of PLD-dependent hydrolysis of phosphatidylcholine), significantly enhanced CD44 expression. Conversely, the treatment of F3II cells with H7, a specific PKC inhibitor, or propranolol, which blocks PA conversion to DAG, significantly decreased CD44 expression levels. These results suggest the involvement of PKC and PLD pathways in CD44 expression. These results demonstrate that CD44 plays an important role during F3II cells adhesion, spreading, migration, and invasion. In addition we provide information linking the PLD- and PKC-dependent pathways with the regulation of CD44 expression. 相似文献
93.
94.
R. J. Stewart Jessica Semerjian Christoph F. Schmidt 《European biophysics journal : EBJ》1998,27(4):353-360
Evidence is presented that the kinesin-related ncd protein is not as processive as kinesin. In low surface density motility
experiments, a dimeric ncd fusion protein behaved mechanistically more similar to non-processive myosins than to the highly
processive kinesin. First, there was a critical microtubule length for motility; only microtubules longer than this critical
length moved in low density ncd surfaces, which suggested that multiple ncd proteins must cooperate to move microtubules in
the surface assay. Under similar conditions, native kinesin demonstrated no critical microtubule length, consistent with the
behavior of a highly processive motor. Second, addition of methylcellulose to decrease microtubule diffusion decreased the
critical microtubule length for motility. Also, the rates of microtubule motility were microtubule length dependent in methylcellulose;
short microtubules, that interacted with fewer ncd proteins, moved more slowly than long microtubules that interacted with
more ncd proteins. In contrast, short microtubules, that interacted with one or a few kinesin proteins, moved on average slightly
faster than long microtubules that interacted with multiple kinesins. We conclude that a degree of processivity as high as
that of kinesin, where a single dimer can move over distances on the order of one micrometer, may not be a general mechanistic
feature of the kinesin superfamily.
Received: 16 September 1997 / Accepted: 4 November 1997 相似文献
95.
Harold J. Hoops Mark C. Brighton Scott M. Stickles Philip R. Clement 《Journal of phycology》1999,35(3):539-547
We tested two competing models that could explain how differential flagellar activity leads to phototactic turning in spheroids of Volvox carteri f. weismannia (Powers) Iyengar. In one model, turning results from the flagella of anterior cells in the lighted and shadowed hemispheres beating at different frequencies. In a competing model, turning results from a change in beat direction in these flagella. Both models successfully explain phototactic steering under constant illumination, but they make different predictions when colonies are exposed to abrupt changes in light intensity. If turning is due to control of flagellar beat frequency, both progression and rotation rates will change in the same direction and with similar magnitudes. If spheroid turning is due to a change in flagellar beat direction, a decreased rate of progression will accompany an increased rate of rotation and vice versa. We used video-microscopy to observe the behavior of positively phototactic V. carteri spheroids exposed to 10× step-up and step-down stimuli. After a step-up stimulus, spheroids slow their progression and rotation by equal amounts. No significant changes are reported in these parameters after the reciprocal step-down response. These observations are consistent with the variable flagellar frequency model and inconsistent with the variable flagellar direction model for phototactic turning. Switching the direction of light stimulus by 180° results in reorientation of positively phototactic spheroids. The kinetics of this reorientation did not precisely match the predictions of either model. 相似文献
96.
目的:探讨内源性Orexin-A(OXA)对大鼠胃运动的中枢和外周作用机制。方法:选取成年Wistar大鼠为研究对象,通过禁食诱导大鼠合成内源性OXA。血浆OXA浓度采用放射免疫法测定。实验前大鼠注射OXA受体拮抗剂SB334867,观察内源性OXA的作用。迷走神经切断术用来观察迷走神经的介导作用。胃排空采用分光光度法测量,消化间期胃运动通过在胃窦部植入一应力传感器测量。Orexin前体(PPO)在胃和下丘脑组织的表达,采用蛋白印迹确定。结果:禁食18 h后,血浆OXA水平和PPO蛋白表达显著增加(P0.05),在禁食36 h组达到最高水平(P0.01)。内源性OXA促进胃排空(P0.05),抑制消化间期胃蠕动(P0.05)。外周注射SB334867均能阻断上述胃动力效应(P0.05),但对PPO表达没有影响。迷走神经切断术不能阻断内源性OXA的介导作用(P0.05)。结论:禁食能诱导内源性OXA的合成,内源性OXA能加速胃排空,同时它又抑制消化间期胃蠕动。 相似文献
97.
Thrombospondin‐1 is part of a Slug‐independent motility and metastatic program in cutaneous melanoma,in association with VEGFR‐1 and FGF‐2
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Patrizia Borsotti Carmen Ghilardi Paola Ostano Antonietta Silini Romina Dossi Denise Pinessi Chiara Foglieni Maria Scatolini Pedro M. Lacal Raffaele Ferrari Davide Moscatelli Fabio Sangalli Stefania D'Atri Raffaella Giavazzi Maria Rosa Bani Giovanna Chiorino Giulia Taraboletti 《Pigment cell & melanoma research》2015,28(1):73-81
Differently from most transformed cells, cutaneous melanoma expresses the pleiotropic factor thrombospondin‐1 (TSP‐1). Herein, we show that TSP‐1 (RNA and protein), undetectable in four cultures of melanocytes and a RGP melanoma, was variously present in 13 cell lines from advanced melanomas or metastases. Moreover, microarray analysis of 55 human lesions showed higher TSP‐1 expression in primary melanomas and metastases than in common and dysplastic nevi. In a functional enrichment analysis, the expression of TSP‐1 correlated with motility‐related genes. Accordingly, TSP‐1 production was associated with melanoma cell motility in vitro and lung colonization potential in vivo. VEGF/VEGFR‐1 and FGF‐2, involved in melanoma progression, regulated TSP‐1 production. These factors were coexpressed with TSP‐1 and correlated negatively with Slug (SNAI2), a cell migration master gene implicated in melanoma metastasis. We conclude that TSP‐1 cooperates with FGF‐2 and VEGF/VEGFR‐1 in determining melanoma invasion and metastasis, as part of a Slug‐independent motility program. 相似文献
98.
Reproductive and Developmental Toxicity of Orally Administered Botanical Composition,UP446‐Part III: Effects on Fertility and Early Embryonic Development to Implantation in Sprague Dawley Rats
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Mesfin Yimam Young‐Chul Lee Eu‐Jin Hyun Qi Jia 《Birth defects research. Part B, Developmental and reproductive toxicology》2015,104(4):166-176
In recent years, high prevalence of adverse effects associated to the use of traditional medicines during pregnancy is becoming alarming due to the self‐medication of oral supplements by expecting mothers without supervision. Many expectant mothers use alternative and complementary medicines as a supplement to conventional pregnancy management with an inherent belief of considering herbal remedies as harmless. To the contrary, herbal remedies could incur a potential teratogenic risk both to the child bearing mother and the developing fetuses when consumed before or at the time of gestation. Here, we describe the potential adverse effects of orally administered UP446, a standardized bioflavonoid composition from the roots of Scutellaria baicalensis and the heartwoods of Acacia catechu, on fertility and early embryonic development to implantation in Sprague Dawley rats at doses of 250, 500, and 1000 mg/kg. Besides body weight and food consumption, reproductive functions, sperm motility and morphology, estrus cycle, and fertility rate were monitored. There were no statistically significant differences in reproductive function in all UP446 treated groups in both genders. Test substance impacts on reproductive parameters were very minimal. Neither sperm motility nor morphology was affected as a result of oral UP446 administrations in males. There were no treatment‐related effects on estrus cycle stages in females. No significant changes in necropsy or histopathology were observed for all the groups. Therefore, the no observed adverse effect level (NOAEL) of UP446 was considered to be 1000 mg/kg, the highest dose tested, in both genders 相似文献
99.
Retraction is a major rate-limiting step in cell motility, particularly in slow moving cell types that form large stable adhesions. Myosin II dependent contractile forces are thought to facilitate detachment by physically pulling up the rear edge. However, retraction can occur in the absence of myosin II activity in cell types that form small labile adhesions. To investigate the role of contractile force generation in retraction, we performed traction force microscopy during the movement of fish epithelial keratocytes. By correlating changes in local traction stress at the rear with the area retracted, we identified four distinct modes of retraction. “Recoil” retractions are preceded by a rise in local traction stress, while rear edge is temporarily stuck, followed by a sharp drop in traction stress upon detachment. This retraction type was most common in cells generating high average traction stress. In “pull” type retractions local traction stress and area retracted increase concomitantly. This was the predominant type of retraction in keratocytes and was observed mostly in cells generating low average traction stress. “Continuous” type retractions occur without any detectable change in traction stress, and are seen in cells generating low average traction stress. In contrast, to many other cell types, “release” type retractions occur in keratocytes following a decrease in local traction stress. Our identification of distinct modes of retraction suggests that contractile forces may play different roles in detachment that are related to rear adhesion strength. To determine how the regulation of contractility via MLCK or Rho kinase contributes to the mechanics of detachment, inhibitors were used to block or augment these pathways. Modulation of MLCK activity led to the most rapid change in local traction stress suggesting its importance in regulating attachment strength. Surprisingly, Rho kinase was not required for detachment, but was essential for localizing retraction to the rear. We suggest that in keratocytes MLCK and Rho kinase play distinct, complementary roles in the respective temporal and spatial control of rear detachment that is essential for maintaining rapid motility. 相似文献
100.
At the leading edge of migrating cells, protrusive forces are developed by the assembly of actin filaments organised in a lamellipodial dendritic array at the front and a more distal lamellar linear array. Whether these two arrays are distinct or functionally linked and how they contribute to cell migration is an open issue. Tropomyosin severely inhibits lamellipodium formation and facilitates the lamellar array while enhancing migration, by a mechanism that is not understood. Here we show that the complex in vivo effects of tropomyosin are recapitulated in the reconstituted propulsion of neural Wiskott–Aldrich syndrome protein (N‐WASP)‐functionalised beads, which is based on the sole formation of a dendritic array of actin‐related protein (Arp)2/3‐branched filaments. Actin‐depolymerising factor (ADF) and tropomyosin control the length of the actin tail. By competing with Arp2/3 during filament branching, tropomyosin displays opposite effects on propulsion depending on the surface density of N‐WASP. Tropomyosin binding to the dendritic array is facilitated following filament debranching, causing its enrichment at the rear of the actin tail, like in vivo. These results unveil the mechanism by which tropomyosin generates two morphologically and dynamically segregated actin networks from a single one. 相似文献