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991.
Molecular and Cellular Basis of Regeneration and Tissue Repair 总被引:2,自引:0,他引:2
The Xenopus tadpole is a favourable organism for regeneration research because it is suitable for a wide range of micromanipulative procedures and for a wide range of transgenic methods. Combination of these techniques enables genes to be activated or inhibited at specific times and in specific tissue types to a much higher degree than in any other organism capable of regeneration. Regenerating systems include the tail, the limb buds and the lens. The study of tail regeneration has shown that each tissue type supplies the cells for its own replacement: there is no detectable de-differentiation or metaplasia. Signalling systems needed for regeneration include the BMP and Notch signalling pathways, and perhaps also the Wnt and FGF pathways. The limb buds will regenerate completely at early stages, but not once they are fully differentiated. This provides a good opportunity to study the loss of regenerative ability using transgenic methods. 相似文献
992.
Molecular and Cellular Basis of Regeneration and Tissue Repair 总被引:3,自引:0,他引:3
Rossi L Salvetti A Batistoni R Deri P Gremigni V 《Cellular and molecular life sciences : CMLS》2008,65(1):16-23
Planarians possess amazing abilities to regulate tissue homeostasis and regenerate missing body parts. These features reside on the presence of a population of pluripotent/totipotent stem cells, the neoblasts, which are considered as the only planarian cells able to proliferate in the asexual strains. Neoblast distribution has been identified by mapping the cells incorporating bromodeoxyuridine, analyzing mitotic figures and using cell proliferation markers. Recently identified molecular markers specifically label subgroups of neoblasts, revealing thus the heterogeneity of the planarian stem cell population. Therefore, the apparent totipotency of neoblasts probably reflects the composite activities of multiple stem cell types. First steps have been undertaken to understand how neoblasts and differentiated cells communicate with each other to adapt the self-renewal and differentiation rates of neoblasts to the demands of the body. Moreover, the introduction of molecular resource database on planarians now paves the way to renewed strategies to understand planarian regeneration and stem cell-related issues. 相似文献
993.
The potential effects of synthetic unmethylated oligodeoxynucleotides (ODN) containing CpG motifs, mimicking bacterial DNA, has never been evaluated on the immune response in the teleost fish gilthead seabream (Sparus aurata), the most important fish species in Mediterranean aquaculture. First, binding and competition studies have demonstrated that binding is saturated and promiscuous, suggesting the participation of several receptors. Moreover, leucocyte cytotoxic (NCC) activity, production of ROIs (reactive oxygen intermediates), and expression of immune-relevant genes was greatly primed by ODNs. Focusing on the mechanism, the TLR9 gene is widely distributed in seabream tissues and differently regulated in vitro by several stimuli. Moreover, and for the first time in fish, TLR9 mRNA has been detected in lymphocytes as the main cell-source. To conclude, ODNs containing GACGTT, GTCGTT (optimal for mouse and human, respectively) or AACGTT motifs are the most potent inducers of seabream immunity, whilst the involvement of TLR9 is under debate. 相似文献
994.
Src-family kinases (SFKs) regulate different granulocyte and monocyte/macrophage responses. Accumulating evidence suggests that members of this family are implicated in signal transduction pathways regulating phagocytic cell migration and recruitment into inflammatory sites. Macrophages with a genetic deficiency of SFKs display marked alterations in cytoskeleton dynamics, polarization and migration. This same phenotype is found in cells with either a lack of SFK substrates and/or interacting proteins such as Pyk2/FAK, c-Cbl and p190RhoGAP. Notably, SFKs and their downstream targets also regulate monocyte recruitment into inflammatory sites. Depending on the type of assay used, neutrophil migration in vitro may be either dependent on or independent of SFKs. Also neutrophil recruitment in in vivo models of inflammation may be regulated differently by SFKs depending on the tissue involved. In this review we will discuss possible mechanisms by which SFKs may regulate phagocytic cell migratory abilities. 相似文献
995.
Arachiche A Badirou I Dachary-Prigent J Garcin I Geldwerth-Feniger D Kerbiriou-Nabias D 《Cellular and molecular life sciences : CMLS》2008,65(23):3861-3871
Rapid Ca2+-dependent phospholipid (PL) reorganization (scrambling) at the plasma membrane is a mechanism common to hematopoietic cells
exposing procoagulant phosphatidylserine (PS). The aim of this research was to determine whether activation of the extracellular
signal-regulated kinase (ERK) pathway was required for PL scrambling, based on a single report analyzing both responses induced
by Ca2+ ionophores in megakaryoblastic HEL cells. Ca2+ ionophore-stimulated ERK phosphorylation was induced in platelets without external Ca2+, whereas exogenous Ca2+ entry was crucial for ERK activation in Jurkat T cells. In both cells, membrane scrambling only occurred following Ca2+ entry and was not blocked by inhibiting ERK phosphorylation. Furthermore, ERK proteins are strongly phosphorylated in transformed
B lymphoblastic cell lines, which do not expose PS in their resting state. Overall, the data demonstrated that ERK activation
and membrane scrambling are independent mechanisms.
A. Arachiche, I. Badirou: These authors contributed equally to this work.
Received 18 June 2008; received after revision 24 September 2008; accepted 1 October 2008 相似文献
996.
Olfactory receptors typically exhibit poor plasma membrane localization and functionality when heterologously expressed in
most cell types. It has therefore proven difficult to effectively study olfactory receptor pharmacology and signaling mechanisms
using traditional cell culture systems. Over the past few years, a variety of distinct proteins have been reported to interact
with olfactory receptors and facilitate olfactory receptor trafficking to the plasma membrane in heterologous cells. Advances
in this area have shed significant light on the fundamental factors governing the cell-specific control of olfactory receptor
trafficking. 相似文献
997.
A. F. Vanin L. M. Bevers A. Slama-Schwok E. E. van Faassen 《Cellular and molecular life sciences : CMLS》2008,65(24):4066-4069
Announcement
Announcement 相似文献998.
Taylor DM Maxwell MM Luthi-Carter R Kazantsev AG 《Cellular and molecular life sciences : CMLS》2008,65(24):4000-4018
Sirtuins comprise a unique class of nicotinamide adenine dinucleotide (NAD+)-dependent deacetylases that target multiple protein substrates to execute diverse biological functions. These enzymes are
key regulators of clinically important cellular and organismal processes, including metabolism, cell division and aging. The
desire to understand the important determinants of human health and lifespan has resulted in a firestorm of work on the seven
mammalian sirtuins in less than a decade. The implication of sirtuins in medically important areas such as diabetes, cancer,
cardiovascular dysfunction and neurodegenerative disease has further catapulted them to a prominent status as potential targets
for nutritional and therapeutic development. Here, we present a review of published results on sirtuin biology and its relevance
to human disease.
Received 25 June 2008; received after revision 20 August 2008; accepted 29 August 2008 相似文献
999.
Molecular mechanisms of phagocytic uptake in mammalian cells 总被引:2,自引:1,他引:1
Groves E Dart AE Covarelli V Caron E 《Cellular and molecular life sciences : CMLS》2008,65(13):1957-1976
Phagocytosis is a highly conserved, complex process that has evolved to counter the constant threat posed by pathogens, effete cells and debris. Classically defined as a mechanism for internalising and destroying particles greater than 0.5 mum in size, it is a receptor-mediated, actin-driven process. The best-studied phagocytic receptors are the opsono-receptors, FcgammaR and CR3. Phagocytic uptake involves actin dynamics including polymerisation, bundling, contraction, severing and depolymerisation of actin filaments. Recent evidence points to the importance of membrane remodelling during phagocytosis, both in terms of changes in lipid composition and delivery of new membrane to the sites of particle binding. Here we review the molecular mechanisms of phagocytic uptake and some of the strategies developed by microbial pathogens to manipulate this process. 相似文献
1000.
Galat A 《Cellular and molecular life sciences : CMLS》2008,65(21):3481-3493
Extracellular domains of some cellular receptors expressed in the organisms at different levels of development belong to three-fingered
protein (TFP) fold. The Homo sapiens genome encodes at least 45 genes containing from one to three TFP domains (TFPDs), namely diverse paralogues of the Ly6 gene,
CD59 and the receptors of activins, bone morphogenetic proteins, Mullerian inhibiting substance and transforming growth factor-β.
C4.4a and urokinase/plasminogen activatory receptor contain two and three TFPD repeats, respectively. These diverse proteins
have a low overall sequence similarity with each other and their hydrophobicity levels vary to a considerable degree. It is
suggested that sequence differentiation within the TFPD led to distinct groups of proteins whose attributes were optimized
to fit both the physicochemical properties specific to their functional microenvironment and selective targeting of their
highly diversified extracellular cofactors.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
Received 7 August 2008; accepted 29 August 2008 相似文献