Metalloprotease‐induced ectodomain shedding of neural cell adhesion molecule (NCAM)

Transmembrane forms of neural cell adhesion molecule (NCAM140, NCAM180¹) are key regulators of neuronal development. The extracellular domain of NCAM can occur as a soluble protein in normal brain, and its levels are elevated in neuropsychiatric disorders, such as schizophrenia; however the mechanism of ectodomain release is obscure. Ectodomain shedding of NCAM140, releasing a fragment of 115 kD, was found to be induced in NCAM‐transfected L‐fibroblasts by the tyrosine phosphatase inhibitor pervanadate, but not phorbol esters. Pervanadate‐induced shedding was mediated by a disintegrin metalloprotease (ADAM), regulated by ERK1/2 MAP kinase. In primary cortical neurons, NCAM was shed at high levels, and the metalloprotease inhibitor GM6001 significantly increased NCAM‐dependent neurite branching and outgrowth. Moreover, NCAM‐dependent neurite outgrowth and branching were inhibited in neurons isolated from a transgenic mouse model of NCAM shedding. These results suggest that regulated metalloprotease‐induced ectodomain shedding of NCAM down‐regulates neurite branching and neurite outgrowth. Thus, increased levels of soluble NCAM in schizophrenic brain have the potential to impair neuronal connectivity. © 2006 Wiley Periodicals, Inc. J Neurobiol, 2006     

Exosomes: Extracellular organelles important in intercellular communication

In addition to intracellular organelles, eukaryotic cells also contain extracellular organelles that are released, or shed, into the microenvironment. These membranous extracellular organelles include exosomes, shedding microvesicles (SMVs) and apoptotic blebs (ABs), many of which exhibit pleiotropic biological functions. Because extracellular organelle terminology is often confounding, with many preparations reported in the literature being mixtures of extracellular vesicles, there is a growing need to clarify nomenclature and to improve purification strategies in order to discriminate the biochemical and functional activities of these moieties. Exosomes are formed by the inward budding of multivesicular bodies (MVBs) and are released from the cell into the microenvironment following the fusion of MVBs with the plasma membrane (PM). In this review we focus on various strategies for purifying exosomes and discuss their biophysical and biochemical properties. An update on proteomic analysis of exosomes from various cell types and body fluids is provided and host-cell specific proteomic signatures are also discussed. Because the ectodomain of ~ 42% of exosomal integral membrane proteins are also found in the secretome, these vesicles provide a potential source of serum-based membrane protein biomarkers that are reflective of the host cell. ExoCarta, an exosomal protein and RNA database (http://exocarta.ludwig.edu.au), is described.     

陕北黄土丘陵区6种植物冠层种子库的初步研究

对陕北黄土丘陵区猪毛蒿（Artemisia scoparia）、铁杆蒿（Artemisia gmelinii）、茭蒿（Artemisia giraldii）、杠柳（Periploca sepium）、狼牙刺（Sophora viciifolia）和黄刺玫（Rosa xanthina）6种植物不同时期的冠层种子宿存量进行了调查。结果显示,6种植物均有不同程度的植冠种子宿存量,翌年4月,黄刺玫的宿存量可达57.60%,狼牙刺的宿存量达31.56%,杠柳的宿存量为6.30%,铁杆蒿的宿存量为2.42%,猪毛蒿的宿存量为1.86%,茭蒿的宿存量为1.16%。猪毛蒿、铁杆蒿、茭蒿、黄刺玫的种子宿存时间可长达7个月之久,狼牙刺、杠柳的宿存时间为5～7个月。     

Comparison of Clinical and Epidemiological Characteristics of Asymptomatic and Symptomatic SARS-CoV-2 Infection in Children

Virologica Sinica - To understand the epidemiological and clinical features of the symptomatic and asymptomatic pediatric cases of COVID-19, we carried out a prospective study in Shanghai during...     

In vivo efficacy of praziquantel against Echinoparyphium aconiatum (Trematoda: Echinostomatidae) parasitizing the great pond snails Lymnaea stagnalis (Gastropoda: Lymnaeidae)

The present study had a practical goal. I aimed to determine whether praziquantel could reduce the production of Echinoparyphium aconiatum (Trematoda: Echinostomatidae) cercariae in infected snails Lymnaea stagnalis (Gastropoda: Lymnaeidae) without killing the hosts. Praziquantel is a broad-spectrum antihelminth agent. It caused a total cessation of cercaria shedding when the praziquantel concentration in the treatment bath was 10 mg/L and the treatment time was 30 h or longer. A next research step which has to be taken before giving detailed recommendations about using praziquantel for ceasing production of E. aconiatum cercariae in parasitized snails is to follow the survivorship and performance of treated snails after a praziquantel exposure for longer than in this medium-term (3 days) experiment.     

Characterization of nectin processing mediated by presenilin-dependent γ-secretase

Nectins play an important role in forming various intercellular junctions including synapses. This role is regulated by several secretases present at intercellular junctions. We have investigated presenilin (PS)-dependent secretase-mediated processing of nectins in PS1 KO cells and primary hippocampal neurons. The loss of PS1/γ-secretase activity delayed the processing of nectin-1 and caused the accumulation of its full-length and C-terminal fragments. Over-expression of PS2 in PS1 KO cells compensated for the loss of PS1, suggesting that PS2 also has the ability to regulate nectin-1 processing. In mouse brain slices, a pronounced increase in levels of 30 and 24 kDa C-terminal fragments in response to chemical long-term potentiation was observed. The mouse brain synaptosomal fractionation study indicated that nectin-1 localized to post-synaptic and preferentially pre-synaptic membranes and that shedding occurs in both compartments. These data suggest that nectin-1 shedding and PS-dependent intramembrane cleavage occur at synapses, and is a regulated event during conditions of synaptic plasticity in the brain. Point mutation analysis identified several residues within the transmembrane domain that play a critical role in the positioning of cleavage sites by ectodomain sheddases. Nectin-3, which forms hetero-trans-dimers with nectin-1, also undergoes intramembrane cleavage mediated by PS1/γ-secretase, suggesting that PS1/γ-secreatse activity regulates synapse formation and remodeling by nectin processing.     

Ectodomain shedding of L1 adhesion molecule promotes cell migration by autocrine binding to integrins.

The L1 adhesion molecule plays an important role in axon guidance and cell migration in the nervous system. L1 is also expressed by many human carcinomas. In addition to cell surface expression, the L1 ectodomain can be released by a metalloproteinase, but the biological function of this process is unknown. Here we demonstrate that membrane-proximal cleavage of L1 can be detected in tumors and in the developing mouse brain. The shedding of L1 involved a disintegrin and metalloproteinase (ADAM)10, as transfection with dominant-negative ADAM10 completely abolishes L1 release. L1-transfected CHO cells (L1-CHO) showed enhanced haptotactic migration on fibronectin and laminin, which was blocked by antibodies to alpha v beta 5 and L1. Migration of L1-CHO cells, but not the basal migration of CHO cells, was blocked by a metalloproteinase inhibitor, indicating a role for L1 shedding in the migration process. CHO and metalloproteinase-inhibited L1-CHO cells were stimulated to migrate by soluble L1-Fc protein. The induction of migration was blocked by alpha v beta 5-specific antibodies and required Arg-Gly-Asp sites in L1. A 150-kD L1 fragment released by plasmin could also stimulate CHO cell migration. We propose that ectodomain-released L1 promotes migration by autocrine/paracrine stimulation via alpha v beta 5. This regulatory loop could be relevant for migratory processes under physiological and pathophysiological conditions.     

Histochemical and ultrastructural features of the lingual epithelium of the rat snake (Elaphe climacophora)

The histological, ultrastructural and histochemical characteristics of the lingual epithelium of the rat snake (Elaphe climacophora) were investigated by light and transmission electron microscopy. The cells in the beta-layer of the epithelium of the bifurcated apex were filled with beta-keratin fibers and an amorphous matrix. Round projections covering the surface of the epithelial cells, namely, microfacets which contained pale granules, were clearly visible on the outer faces of Oberh?utchen cells on the epithelium, and they were identified as fine granules filled with lipid. These granules might play an important role as a coating on the surface of the bifurcated lingual apex. The lipid on the surface of the lingual apex might also serve to trap and retain odorant molecules. Keratohyalin-like granules were distributed within the a-layer of the epithelium of the bifurcated apex of the tongue in the resting phase and cellular interdigitation was well developed in this region. Evidence of a shedding line was apparent under the light microscope in the cleft between outer and inner epithelial generations. The epithelial surface of the body of the tongue appeared suitable for retention of odorant and other molecules.     

Haplometra cylindracea (Zeder, 1800) (Trematoda:Plagiorchiidae): variation in the dates of cercarial shedding for overwintering Galba truncatula

Natural infections of Galba truncatula with Haplometra cylindracea were followed from 2001 to 2009 to determine if their characteristics were similar when snails came from water collections frequented by Bufo bufo or by frogs and newts for their egg-laying. Snail samples were collected from both types of sites to count shed cercariae for three days and also free cercariae when snails were dissected. In sites only frequented by B. bufo, cercarial shedding occurred earlier than in those colonized by frogs and newts (March instead of April-May). In contrast, the number of cercariae shed during three successive days was significantly higher in May. This variation in the dates of cercarial shedding might be due, either to a synchronism between cercaria-releasing snails and the presence of the definitive host (tadpoles) in water collections, or to an earlier infection of overwintering snails in autumn by H. cylindracea miracidia in the case of toad-frequented sites.     

Shedding-Generated Met Receptor Fragments can be Routed to Either the Proteasomal or the Lysosomal Degradation Pathway

The receptor tyrosine kinase Met and its ligand, the hepatocyte growth factor/scatter factor, are essential for embryonic development, whereas deregulation of Met signaling pathways is associated with tumorigenesis and metastasis. The presenilin-regulated intramembrane proteolysis (PS-RIP) is involved in ligand-independent downregulation of Met. This proteolytic process involves shedding of the Met extracellular domain followed by γ-secretase cleavage, generating labile intracellular fragments degraded by the proteasome. We demonstrate here that upon shedding both generated Met N- and C-terminal fragments are degraded directly in the lysosome, with C-terminal fragments escaping γ-secretase cleavage. PS-RIP and lysosomal degradation are complementary, because their simultaneous inhibition induces synergistic accumulation of fragments. Met N-terminal fragments associate with the high-affinity domain of HGF/SF, confirming its decoy activity which could be reduced through their routing to the lysosome at the expense of extracellular release. Finally, the DN30 monoclonal antibody inducing Met shedding promotes receptor degradation through induction of both PS-RIP and the lysosomal pathway. Thus, we demonstrate that Met shedding initiates a novel lysosomal degradation which participates to ligand-independent downregulation of the receptor.