Robert G. Salomon scite author profile

Drusen are extracellular deposits that accumulate below the retinal pigment epithelium on Bruch's membrane and are risk factors for developing age-related macular degeneration (AMD). The progression of AMD might be slowed or halted if the formation of drusen could be modulated. To work toward a molecular understanding of drusen formation, we have developed a method for isolating microgram quantities of drusen and Bruch's membrane for proteome analysis. Liquid chromatography tandem MS analyses of drusen preparations from 18 normal donors and five AMD donors identified 129 proteins. Immunocytochemical studies have thus far localized Ϸ16% of these proteins in drusen. Tissue metalloproteinase inhibitor 3, clusterin, vitronectin, and serum albumin were the most common proteins observed in normal donor drusen whereas crystallin was detected more frequently in AMD donor drusen. Up to 65% of the proteins identified were found in drusen from both AMD and normal donors. However, oxidative protein modifications were also observed, including apparent crosslinked species of tissue metalloproteinase inhibitor 3 and vitronectin, and carboxyethyl pyrrole protein adducts. Carboxyethyl pyrrole adducts are uniquely generated from the oxidation of docosahexaenoate-containing lipids. By Western analysis they were found to be more abundant in AMD than in normal Bruch's membrane and were found associated with drusen proteins. Carboxymethyl lysine, another oxidative modification, was also detected in drusen. These data strongly support the hypothesis that oxidative injury contributes to the pathogenesis of AMD and suggest that oxidative protein modifications may have a critical role in drusen formation.

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Structural Identification by Mass Spectrometry of Oxidized Phospholipids in Minimally Oxidized Low Density Lipoprotein That Induce Monocyte/Endothelial Interactions and Evidence for Their Presence in Vivo

Watson

Leitinger

Navab

et al. 1997

Journal of Biological Chemistry

735

772

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Entry of monocytes into the vessel wall is an important event in atherogenesis. Previous studies from our laboratory suggest that oxidized arachidonic acid-containing phospholipids present in mildly oxidized low density lipoproteins (MM-LDL) can activate endothelial cells to bind monocytes. In this study, biologically active oxidized arachidonic acid-containing phospholipids were produced by autoxidation of 1-palmitoyl-2-arachidonoyl-sn-glycero-3-phosphocholine (Ox-PAPC) and analyzed by liquid chromatography and electrospray ionization mass spectrometry in conjuction with biochemical derivatization techniques. We have now determined the molecular structure of two of three molecules present in MM-LDL and Ox-PAPC that induce monocyte-endothelial interactions. These lipids were identified as 1-palmitoyl-2-(5-oxovaleryl)-sn-glycero-3-phosphocholine (m/z 594.3) and 1-palmitoyl-2-glutaryl-snglycero-3-phosphocholine (m/z 610.2). These two molecules were produced by unambiguous total synthesis and found to be identical by analytical techniques and bioactivity assays to those present in MM-LDL and Ox-PAPC. Evidence for the importance of all three oxidized phospholipids in vivo was suggested by their presence in fatty streak lesions from cholesterol-fed rabbits and by their immunoreactivity with natural antibodies present in ApoE null mice. Overall, these studies suggest that specific oxidized derivatives of arachidonic acidcontaining phospholipids may be important initiators of atherogenesis.

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4‐Hydroxynonenal‐Derived Advanced Lipid Peroxidation End Products Are Increased in Alzheimer's Disease

Sayre

Zelasko

Harris

et al. 1997

Journal of Neurochemistry

950

531

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Recent studies have demonstrated oxidative damage is one of the salient features of Alzheimer's disease (AD). In these studies, glycoxidation adduction to and direct oxidation of amino acid side chains have been demonstrated in the lesions and neurons of AD. To address whether lipid damage may also play an important pathogenic role, we raised rabbit antisera specific for the lysine‐derived pyrrole adducts formed by lipid peroxidation‐derived 4‐hydroxynonenal (HNE). These antibodies were used in immunocytochemical evaluation of brain tissue from AD and age‐matched control patients. HNE‐pyrrole immunoreactivity not only was identified in about half of all neurofibrillary tangles, but was also evident in neurons lacking neurofibrillary tangles in the AD cases. In contrast, few senile plaques were labeled, and then only the dystrophic neurites were weakly stained, whereas the amyloid‐β deposits were unlabeled. Age‐matched controls showed only background HNE‐pyrrole immunoreactivity in hippocampal or cortical neurons. In addition to providing further evidence that oxidative stress‐related protein modification is a pervasive factor in AD, the known neurotoxicity of HNE suggests that lipid peroxidation may also play a role in the neuronal death in AD that underlies cognitive deficits.

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Oxidative damage–induced inflammation initiates age-related macular degeneration

Hollyfield

Bonilha

Rayborn

et al. 2008

Nat Med

649

532

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Oxidative damage and inflammation are postulated to be involved in age-related macular degeneration (AMD). However, the molecular signal(s) linking oxidation to inflammation in this late-onset disease is unknown. Here we describe AMD-like lesions in mice after immunization with mouse serum albumin adducted with carboxyethylpyrrole, a unique oxidation fragment of docosahexaenoic acid that has previously been found adducting proteins in drusen from AMD donor eye tissues 1 and in plasma samples 2 from individuals with AMD. Immunized mice develop antibodies to this hapten, fix complement component-3 in Bruch's membrane, accumulate drusen below the retinal pigment epithelium during aging, and develop lesions in the retinal pigment epithelium mimicking geographic atrophy, the blinding end-stage condition characteristic of the dry form of AMD. We hypothesize that these mice are sensitized to the generation of carboxyethylpyrrole adducts in the outer retina, where docosahexaenoic acid is abundant and conditions for oxidative damage are permissive. This new model provides a platform for dissecting the molecular pathology of oxidative damage in the outer retina and the immune response contributing to AMD.AMD is the most common cause of legal blindness in elderly individuals of industrialized countries 3,4 . Clinicians have long recognized that debris (termed drusen) below the retinal pigment epithetlium (RPE) in the macula is a risk factor for AMD. The presence of complement factor proteins in drusen in AMD eyes 1,5-7 and genetic variation in several complement factor genes in individuals with AMD 8-13 implicate inflammation as an important component in this disease. However, little is known about the signal(s) from the outer retina that initiates the immune system's involvement in AMD.As a potential initiating signal we evaluated carboxyethylpyrrole (CEP; Fig. 1a), an adduct that forms from an oxidation fragment of docosahexaenoic acid (DHA) 2 . DHA, the most oxidizable

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Platelet CD36 links hyperlipidemia, oxidant stress and a prothrombotic phenotype

Podrez

Byzova

Febbraio

et al. 2007

Nat Med

436

484

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Dyslipidemia is associated with a prothrombotic phenotype; however, the mechanisms responsible for enhanced platelet reactivity remain unclear. Proatherosclerotic lipid abnormalities are associated with both enhanced oxidant stress and the generation of biologically active oxidized lipids, including potential ligands for the scavenger receptor CD36, a major platelet glycoprotein. Using multiple mouse in vivo thrombosis models, we now demonstrate that genetic deletion of Cd36 protects mice from hyperlipidemia-associated enhanced platelet reactivity and the accompanying prothrombotic phenotype. Structurally defined oxidized choline glycerophospholipids that serve as high-affinity ligands for CD36 were at markedly increased levels in the plasma of hyperlipidemic mice and in the plasma of humans with low HDL levels, were able to bind platelets via CD36 and, at pathophysiological levels, promoted platelet activation via CD36. Thus, interactions of platelet CD36 with specific endogenous oxidized lipids play a crucial role in the well-known clinical associations between dyslipidemia, oxidant stress and a prothrombotic phenotype.

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Robert G. Salomon

Drusen proteome analysis: An approach to the etiology of age-related macular degeneration

Structural Identification by Mass Spectrometry of Oxidized Phospholipids in Minimally Oxidized Low Density Lipoprotein That Induce Monocyte/Endothelial Interactions and Evidence for Their Presence in Vivo

4‐Hydroxynonenal‐Derived Advanced Lipid Peroxidation End Products Are Increased in Alzheimer's Disease

Oxidative damage–induced inflammation initiates age-related macular degeneration

Platelet CD36 links hyperlipidemia, oxidant stress and a prothrombotic phenotype

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