Peter McCourt scite author profile

To maintain homeostasis, the animal body is equipped with a powerful system to remove circulating waste. This review presents evidence that the scavenger endothelial cell (SEC) is responsible for the clearance of blood-borne waste macromolecules in vertebrates. SECs express pattern-recognition endocytosis receptors (mannose and scavenger receptors), and in mammals, the endocytic Fc gamma-receptor IIb2. This cell type has an endocytic machinery capable of super-efficient uptake and degradation of physiological and foreign waste material, including all major classes of biological macromolecules. In terrestrial vertebrates, most SECs line the wall of the liver sinusoid. In phylogenetically older vertebrates, SECs reside instead in heart, kidney, or gills. SECs, thus, by virtue of their efficient nonphagocytic elimination of physiological and microbial substances, play a critical role in the innate immunity of vertebrates. In major invertebrate phyla, including insects, the same function is carried out by nephrocytes. The concept of a dual-cell principle of waste clearance is introduced to emphasize that professional phagocytes (macrophages in vertebrates; hemocytes in invertebrates) eliminate larger particles (>0.5 μm) by phagocytosis, whereas soluble macromolecules and smaller particles are eliminated efficiently and preferentially by clathrin-mediated endocytosis in nonphagocytic SECs in vertebrates or nephrocytes in invertebrates. Including these cells as important players in immunology and physiology provides an additional basis for understanding host defense and tissue homeostasis.

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Stabilin-1 and -2 constitute a novel family of fasciclin-like hyaluronan receptor homologues

Politz

et al. 2002

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MS-1, a high-molecular-mass protein expressed by non-continuous and angiogenic endothelial cells and by alternatively activated macrophages (Mphi2), and the hepatic sinusoidal endothelial hyaluronan clearance receptor are similar with respect to tissue distribution and biochemical characteristics. In the present study we purified these proteins by immuno- and hyaluronan-affinity chromatography respectively, sequenced tryptic peptides and generated full-length cDNA sequences in both mouse and human. The novel genes, i.e. stabilin-1 and stabilin-2, code for homologous transmembrane proteins featuring seven fasciclin-like adhesion domains, 18-20 epidermal-growth-factor domains, one X-link domain and three to six B-(X(7))-B hyaluronan-binding motifs. Northern-blotting experiments revealed the presence of both stabilins in organs with predominant endothelial sinuses such as liver, spleen and lymph node: stabilin-1 mRNA was also detected in organs with predominant Mphi2 cells, such as placenta, and in interleukin-4/glucocorticoid-stimulated Mphi2 cells in vitro. A polyclonal antibody made against human recombinant stabilin-1 confirmed the expression of stabilin-1 protein in splenic sinus endothelial cells in vivo and in Mphi2 in vitro. On the basis of high similarity at the protein level and the unique domain composition, which differs from that of all other known fasciclin-like proteins and hyaluronan receptors, stabilin-1 and stabilin-2 define a novel family of fasciclin-like hyaluronan receptor homologues that might play a role in cell-cell and cell-matrix interactions in vascular function and inflammatory processes.

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Stabilin-1 and −2 constitute a novel family of fasciclin-like hyaluronan receptor homologues

et al. 2002

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MS-1, a high-molecular-mass protein expressed by non-continuous and angiogenic endothelial cells and by alternatively activated macrophages (Mφ2), and the hepatic sinusoidal endothelial hyaluronan clearance receptor are similar with respect to tissue distribution and biochemical characteristics. In the present study we purified these proteins by immuno- and hyaluronan-affinity chromatography respectively, sequenced tryptic peptides and generated full-length cDNA sequences in both mouse and human. The novel genes, i.e. stabilin-1 and stabilin-2, code for homologous transmembrane proteins featuring seven fasciclin-like adhesion domains, 18–20 epidermal-growth-factor domains, one X-link domain and three to six B-(X7)-B hyaluronan-binding motifs. Northern-blotting experiments revealed the presence of both stabilins in organs with predominant endothelial sinuses such as liver, spleen and lymph node: stabilin-1 mRNA was also detected in organs with predominant Mφ2 cells, such as placenta, and in interleukin-4/glucocorticoid-stimulated Mφ2 cells in vitro. A polyclonal antibody made against human recombinant stabilin-1 confirmed the expression of stabilin-1 protein in splenic sinus endothelial cells in vivo and in Mφ2 in vitro. On the basis of high similarity at the protein level and the unique domain composition, which differs from that of all other known fasciclin-like proteins and hyaluronan receptors, stabilin-1 and stabilin-2 define a novel family of fasciclin-like hyaluronan receptor homologues that might play a role in cell—cell and cell—matrix interactions in vascular function and inflammatory processes.

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Chip-based wide field-of-view nanoscopy

et al. 2017

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Optical microscopy based on waveguide chips significantly reduces the complexity of the entire optical setup, enabling miniaturization by completely removing the excitation light path from the microscope. Instead, waveguides which tightly confine the guided light by total internal reflection due to a high refractive index contrast (HIC) to the surrounding media such as water and cells are used to deliver the illumination light to the sample. The evanescent field on top of the waveguide can be utilized for total internal reflection fluorescence (TIRF) excitation over an almost arbitrarily wide FOV that is intrinsically independent of the detection objective lens and in principle only limited by the waveguide design. Evanescent field excitation using waveguides was first introduced by Grandin et al. 17 , where a slab waveguide was used to generate an evanescent field over the large stretch of the waveguide chip. Slab waveguides (Fig. 1a) Here, we demonstrate waveguide chip-based super-resolution fluorescence imaging by two complementary approaches using ESI and dSTORM. The high intensity in the evanescent field generated by the HIC waveguide material is used for optical switching of fluorophores as required by dSTORM. In addition, the intrinsically multi-mode interference pattern within the waveguide is used to generate fluctuating intensity patterns for ESI. To demonstrate the applicability of waveguide chip-based super-resolution microscopy we visualize the connection of the actin cytoskeleton and plasma membrane fenestrations in liver sinusoidal endothelial cells (LSECs). RESULTS Chip-based single molecule localization microscopyThe performance of chip-based dSTORM is shown by imaging immunostained microtubules in rat LSECs 26 plated directly on the waveguide (Fig. 2a). Measuring the lateral profile along one straight microtubule filament reveals a hollow structure 27 which has been used earlier in localization microscopy as a benchmark sample [28][29][30] , discussed in detail in 31 . This shows a resolution of better than 50 nm ( Fig. 2b), confirmed by full-width-at-half-maximum (FWHM) values, localization precision 32 , and Fourier ring correlation 33,34 (FRC) calculations ( Supplementary Fig. 1). The resolution capability was further investigated by using DNA origami nanorulers that provide markers at (50 ± 5) nm distance as references. These can be clearly resolved in chip-based dSTORM (Fig. 2c,d, Supplementary Fig. 2) which shows a comparable performance to the widely used architecture of an inverted TIRF dSTORM setup (Fig. 2c,d, Supplementary Fig. 3).As an advantage over conventional setups, waveguide chip-based nanoscopy greatly benefits from the fact that the fluorescence excitation is independent of the detection objective lens. As fluorescence is excited by the evanescent field of the waveguide, the technique provides optical sectioning and excellent signal to background ratios at penetration depths below 200 nm ( Supplementary Fig. 4, Supplementary Fig. 5, Video 1), similar to objective-based TIRF...

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Characterization of a hyaluronan receptor on rat sinusoidal liver endothelial cells and its functional relationship to scavenger receptors

McCourt¹,

Smedsrød²,

Melkko³

et al. 1999

Hepatology

128

139

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(1-4) and ␤(1-3) glycosidic bonds, respectively, belies the range of unique viscoelastic and physiological properties that this anionic polysaccharide has. Such qualities are probably conferred both by its high molecular mass and its secondary and tertiary structures that include 2-fold helices and extensive branched networks 2 and possibly sheets and tubular structures. 3 The formation of these secondary and tertiary structures is likely facilitated by both hydrophobic and hydrophilic interactions between HA monomers. 3

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Stabilin-1 and stabilin-2 are both directed into the early endocytic pathway in hepatic sinusoidal endothelium via interactions with clathrin/AP-2, independent of ligand binding

Hansen

Longati

Elvevold

et al. 2005

Experimental Cell Research

127

123

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The mannose receptor on murine liver sinusoidal endothelial cells is the main denatured collagen clearance receptor

et al. 2007

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The purpose of this study was to identify the receptor responsible for endocytosis of denatured collagen from blood. The major site of clearance of this material (at least 0.5 g/day in humans) is a receptor on liver sinusoidal endothelial cells (LSECs). We have now identified an 180-kDa endocytic receptor on LSECs, peptide mass fingerprinting of which revealed it to be the mannose receptor. Challenge of mannose-receptor knockout mice and their cultured LSECs revealed significantly reduced blood clearance and a complete absence of LSEC endocytosis of denatured collagen. Organ analysis of wild-type versus knockout mice after injection of denatured collagen revealed significantly reduced liver uptake in the knockout mice. Clearance/endocytosis of ligands for other receptors in these animals was as that for wild-type mice, and denatured collagen uptake in wild-type mice was not affected by other ligands of the mannose receptor, namely mannose and mannan. Furthermore, unlike that of mannose and mannan, endocytosis of denatured collagen by the mannose receptor is calcium independent. This suggests that the binding site for denatured collagen is distinct from that for mannose/mannan. Mannose receptors on LSECs appear to have less affinity for circulating triple helical type I collagen. Conclusion: The mannose receptor is the main candidate for being the endocytic denatured collagen receptor on LSECs. (HEPATOLOGY 2007;45:1454-1461

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Role of liver sinusoidal endothelial cells and stabilins in elimination of oxidized low-density lipoproteins

Oteiza²,

Sørensen³

et al. 2011

American Journal of Physiology-Gastrointestinal and Liver Physi

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Atherogenesis is associated with elevated levels of low-density lipoprotein (LDL) and its oxidized form (oxLDL) in the blood. The liver is an important scavenger organ for circulating oxLDLs. The present study aimed to examine endocytosis of mildly oxLDL (the major circulating form of oxLDLs) in liver sinusoidal endothelial cells (LSECs) and the involvement of the scavenger receptors stabilin-1 and stabilin-2 in this process. Freshly isolated LSECs, Kupffer cells (KCs), and stabilin-1- and stabilin-2-transfected human embryonic kidney cells were incubated with fluorescently labeled or radiolabeled oxLDLs [oxidized for 3 h (oxLDL(3)), 6 h, or 24 h (oxLDL(24))] to measure endocytosis. The intracellular localization of oxLDLs and stabilins in LSECs was examined by immunofluorescence and immunogold electron microscopy. Whereas oxLDL(24) was endocytosed both by LSECs and KCs, oxLDL(3) (mildly oxLDL) was taken up by LSECs only. The LSEC uptake of oxLDLs was significantly inhibited by the scavenger receptor ligand formaldehyde-treated serum albumin. Uptake of all modified LDLs was high in stabilin-1-transfected cells, whereas stabilin-2-transfected cells preferentially took up oxLDL(24), suggesting that stabilin-1 is a more important receptor for mildly oxLDLs than stabilin-2. Double immunogold labeling experiments in LSECs indicated interactions of stabilin-1 and stabilin-2 with oxLDL(3) on the cell surface, in coated pits, and endocytic vesicles. LSECs but not KCs endocytosed mildly oxLDL. Both stabilin-1 and stabilin-2 were involved in the LSEC endocytosis of oxLDLs, but experiments with stabilin-transfected cells pointed to stabilin-1 as the most important receptor for mildly oxLDL.

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Peter McCourt

The scavenger endothelial cell: a new player in homeostasis and immunity

Stabilin-1 and -2 constitute a novel family of fasciclin-like hyaluronan receptor homologues

Stabilin-1 and −2 constitute a novel family of fasciclin-like hyaluronan receptor homologues

Chip-based wide field-of-view nanoscopy

Characterization of a hyaluronan receptor on rat sinusoidal liver endothelial cells and its functional relationship to scavenger receptors

Stabilin-1 and stabilin-2 are both directed into the early endocytic pathway in hepatic sinusoidal endothelium via interactions with clathrin/AP-2, independent of ligand binding

The mannose receptor on murine liver sinusoidal endothelial cells is the main denatured collagen clearance receptor

Role of liver sinusoidal endothelial cells and stabilins in elimination of oxidized low-density lipoproteins

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