Xiao‐Ping Yang scite author profile

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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The lyase activity of the DNA repair protein β-polymerase protects from DNA-damage-induced cytotoxicity

Sobol

Prasad

Evenski

et al. 2000

Nature

326

347

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Small DNA lesions such as oxidized or alkylated bases are repaired by the base excision repair (BER) pathway. BER includes removal of the damaged base by a lesion-specific DNA glycosylase, strand scission by apurinic/apyrimidinic endonuclease, DNA resynthesis and ligation. BER may be further subdivided into DNA beta-polymerase (beta-pol)-dependent single-nucleotide repair and beta-pol-dependent or -independent long patch repair subpathways. Two important enzymatic steps in mammalian single-nucleotide BER are contributed by beta-pol: DNA resynthesis of the repair patch and lyase removal of 5'-deoxyribose phosphate (dRP). Fibroblasts from beta-pol null mice are hypersensitive to mono-functional DNA-methylating agents, resulting in increases in chromosomal damage, apoptosis and necrotic cell death. Here we show that only the dRP lyase activity of beta-pol is required to reverse methylating agent hypersensitivity in beta-pol null cells. These results indicate that removal of the dRP group is a pivotal step in BER in vivo. Persistence of the dRP moiety in DNA results in the hypersensitivity phenotype of beta-pol null cells and may signal downstream events such as apoptosis and necrotic cell death.

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Expression of functional Toll-like receptors 2 and 4 in human aortic valve interstitial cells: potential roles in aortic valve inflammation and stenosis

Meng

Ao²,

Song³

et al. 2008

American Journal of Physiology-Cell Physiology

150

206

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aortic valve stenosis is the most common indication for surgical valve replacement. Inflammation appears to be one of the mechanisms involved in aortic valve calcification, and valve interstitial cells seem to contribute to that process. Although Toll-like receptors (TLRs) play an important role in the cellular inflammatory response, it is unknown whether human aortic valve interstitial cells (HAVICs) express functional TLRs. We examined the expression of TLR2 and TLR4 in human aortic valve leaflets and in isolated HAVICs and analyzed the response of cultured HAVICs to the TLR2 and TLR4 agonists peptidoglycan (PGN) and LPS. Abundant TLR2 and TLR4 proteins were found in human aortic valve leaflets and in isolated HAVICs, and both receptors were detected in the membrane and cytoplasm of cultured HAVICs. Stimulation by either PGN or LPS resulted in the activation of the NF-B signaling pathway and the production of multiple proinflammatory mediators, including IL-6, IL-8, and ICAM-1. In addition, stimulation by either PGN or LPS upregulated the expression of bone morphogenetic protein-2 (BMP-2) and Runx2, factors associated with osteogenesis. This study demonstrates for the first time that HAVICs express TLR2 and TLR4 and that stimulation of HAVICs by PGN or LPS induces the expression of proinflammatory mediators and the upregulation of osteogenesis-associated factors. These results suggest that TLR2 and TLR4 may play a role in aortic valve inflammation and stenosis. cytokines; intracellular cell adhesion molecule-1; bone morphogenetic protein-2; Runx2

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Pro-Osteogenic Phenotype of Human Aortic Valve Interstitial Cells Is Associated With Higher Levels of Toll-Like Receptors 2 and 4 and Enhanced Expression of Bone Morphogenetic Protein 2

Yang

Fullerton

et al. 2009

Journal of the American College of Cardiology

137

169

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Xiao‐Ping Yang

Oxidative damage–induced inflammation initiates age-related macular degeneration

The lyase activity of the DNA repair protein β-polymerase protects from DNA-damage-induced cytotoxicity

Expression of functional Toll-like receptors 2 and 4 in human aortic valve interstitial cells: potential roles in aortic valve inflammation and stenosis

Pro-Osteogenic Phenotype of Human Aortic Valve Interstitial Cells Is Associated With Higher Levels of Toll-Like Receptors 2 and 4 and Enhanced Expression of Bone Morphogenetic Protein 2

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