John A. Thompson scite author profile

Inflammatory processes in chronic rejection remain a serious clinical problem in organ transplantation. Activated cellular infiltrate produces high levels of both superoxide and nitric oxide. These reactive oxygen species interact to form peroxynitrite, a potent oxidant that can modify proteins to form 3-nitrotyrosine. We identified enhanced immunostaining for nitrotyrosine localized to tubular epithelium of chronically rejected human renal allografts.Western blot analysis of rejected tissue demonstrated that tyrosine nitration was restricted to a few specific polypeptides. Immunoprecipitation and amino acid sequencing techniques identified manganese superoxide dismutase, the major antioxidant enzyme in mitochondria, as one of the targets of tyrosine nitration. Total manganese superoxide dismutase protein was increased in rejected kidney, particularly in the tubular epithelium; however, enzymatic activity was significantly decreased. Exposure ofrecombinant human manganese superoxide dismutase to peroxynitrite resulted in a dosedependent (IC50 = 10 ,uM) decrease in enzymatic activity and concomitant increase in tyrosine nitration. Collectively, these observations suggest a role for peroxynitrite during development and progression of chronic rejection in human renal allografts. In addition, inactivation of manganese superoxide dismutase by peroxynitrite may represent a general mechanism that progressively increases the production of peroxynitrite, leading to irreversible oxidative injury to mitochondria.

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Carcinoembryonic antigen gene family: Molecular biology and clinical perspectives

Thompson

Fritz

Zimmermann

1991

Clinical Laboratory Analysis

557

389

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The carcinoembryonic antigen (CEA) gene family belongs to the immunoglobulin supergene family and can be divided into two main subgroups based on sequence comparisons. In humans it is clustered on the long arm of chromosome 19 and consists of approximately 20 genes. The CEA subgroup genes code for CEA and its classical crossreacting antigens, which are mainly membrane-bound, whereas the other subgroup genes encode the pregnancy-specific glycoproteins (PSG), which are secreted. Splice variants of individual genes and differential post-translational modifications of the resulting proteins, e.g., by glycosylation, indicate a high complexity in the number of putative CEA-related molecules. So far, only a limited number of CEArelated antigens in humans have been unequivocally assigned to a specific gene.Rodent CEA-related genes reveal a high sequence divergence and, in part, a completely different domain organization than the human CEA gene family, making it difficult to determine individual gene counterparts. However, rodent CEA-related genes can be assigned to human subgroups based on similarity of expression patterns, which is characteristic for the subgroups. Various functions have been determined for members of the CEA subgroup in vitro, including cell adhesion, bacterial binding, an accessory role for collagen binding or ecto-ATPases activity.Based on all that is known so far on its biology, the clinical outlook for the CEA family has been reassessed.

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Decreased Zinc Affinity of Amyotrophic Lateral Sclerosis‐Associated Superoxide Dismutase Mutants Leads to Enhanced Catalysis of Tyrosine Nitration by Peroxynitrite

Crow¹,

Sampson²,

Zhuang³

et al. 1997

Journal of Neurochemistry

452

344

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Mutations to Cu/Zn superoxide dismutase (SOD) linked to familial amyotrophic lateral sclerosis (ALS) enhance an unknown toxic reaction that leads to the selective degeneration of motor neurons. However, the question of how >50 different missense mutations produce a common toxic phenotype remains perplexing. We found that the zinc affinity of four ALS‐associated SOD mutants was decreased up to 30‐fold compared to wild‐type SOD but that both mutants and wild‐type SOD retained copper with similar affinity. Neurofilament‐L (NF‐L), one of the most abundant proteins in motor neurons, bound multiple zinc atoms with sufficient affinity to potentially remove zinc from both wild‐type and mutant SOD while having a lower affinity for copper. The loss of zinc from wild‐type SOD approximately doubled its efficiency for catalyzing peroxynitrite‐mediated tyrosine nitration, suggesting that one gained function by SOD in ALS may be an indirect consequence of zinc loss. Nitration of protein‐bound tyrosines is a permanent modification that can adversely affect protein function. Thus, the toxicity of ALS‐associated SOD mutants may be related to enhanced catalysis of protein nitration subsequent to zinc loss. By acting as a high‐capacity zinc sink, NF‐L could foster the formation of zinc‐deficient SOD within motor neurons.

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Peroxynitrite-Mediated Inactivation of Manganese Superoxide Dismutase Involves Nitration and Oxidation of Critical Tyrosine Residues

1998

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Previous studies from our laboratory have demonstrated that the mitochondrial protein manganese superoxide dismutase is inactivated, tyrosine nitrated, and present as higher molecular mass species during human renal allograft rejection. To elucidate mechanisms whereby tyrosine modifications might result in loss of enzymatic activity and altered structure, the effects of specific biological oxidants on recombinant human manganese superoxide dismutase in vitro have been evaluated. Hydrogen peroxide or nitric oxide had no effect on enzymatic activity, tyrosine modification, or electrophoretic mobility. Exposure to either hypochlorous acid or tetranitromethane (pH 6) inhibited (approximately 50%) enzymatic activity and induced the formation of dityrosine and higher mass species. Treatment with tetranitromethane (pH 8) inhibited enzymatic activity 67% and induced the formation of nitrotyrosine. In contrast, peroxynitrite completely inhibited enzymatic activity and induced formation of both nitrotyrosine and dityrosine along with higher molecular mass species. Combination of real-time spectral analysis and electrospray mass spectroscopy revealed that only three (Y34, Y45, and Y193) of the nine total tyrosine residues in manganese superoxide dismutase were nitrated by peroxynitrite. Inspection of X-ray crystallographic data suggested that neighboring glutamate residues associated with two of these tyrosines may promote targeted nitration by peroxynitrite. Tyr34, which is present in the active site, appeared to be the most susceptible residue to peroxynitrite-mediated nitration. Collectively, these observations are consistent with previous results using chronically rejecting human renal allografts and provide a compelling argument supporting the involvement of peroxynitrite during this pathophysiologic condition.

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Direct In Vivo Evidence Demonstrating Neointimal Migration of Adventitial Fibroblasts After Balloon Injury of Rat Carotid Arteries

et al. 2000

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Background-Clinical and experimental evidence suggest that the adventitia participates in the response to endoluminal vascular injury. The current study used a direct approach to test the hypothesis that, after balloon injury of the rat carotid artery, adventitial fibroblasts migrate in a luminal direction and contribute to neointima formation. Methods and Results-Primary syngeneic adventitial fibroblasts were stably transduced with retroviral particles coordinating expression of ␤-galactosidase (LacZ) and introduced into the adventitia of right carotid arteries of rats immediately after balloon injury. At defined times after injury and fibroblast implantation, rats were euthanized, and arterial tissue was examined for detection of LacZ mRNA (reverse transcription polymerase chain reaction), DNA (polymerase chain reaction), and in situ enzymatic activity. LacZ expression was detected in the media 5 days postinjury and in both media and neointima at 7, 10, and 14 days postinjury. LacZ was undetectable in injured vessels that had not been seeded with transduced fibroblasts and was restricted to the adventitia in seeded vessels that were not injured. Neointima formation also has been observed in response to adventitial injury in various animal models. 3,4 Further, endoluminal injury of the porcine coronary artery has been shown to result in significant remodeling of the adventitia, characterized by proliferation of adventitial fibroblasts. [5][6] Similarly, BrdU labeling studies 7 have demonstrated increased adventitial proliferation within 3 days after endoluminal balloon injury of the rat carotid artery, which progressed over time to the neointimal compartment. Conclusions-TheseThese findings provided indirect evidence for participation of adventitial cells in neointima formation after endoluminal vascular injury, because BrdU cannot selectively identify specific cells of adventitial origin. The inability to identify cells that entered the replicative cycle before or after BrdU administration and decreasing intensity of BrdU staining with time, as a result of the dilutional effect of ongoing cell division, makes it difficult to use this technique over prolonged periods. 8 The current study used a more direct approach to test the hypothesis that adventitial fibroblasts migrate in a luminal direction into the neointima after endoluminal vascular injury. Syngeneic fibroblasts, derived from the adventitia of rat carotid arteries, were stably transduced with a ␤-galactosidase reporter gene and introduced into the adventitia of rat carotid arteries immediately after balloon injury. Results suggest that endoluminal injury of the rat carotid artery induces the migration of fibroblasts from the adventitia, through the medial layer, and into the neointimal compartment. Methods Syngeneic Adventitial FibroblastsPrimary cultures of adventitial fibroblasts 9 were recovered from the carotid arteries of female Sprague-Dawley rats (Charles River, Wilmington, Massachusetts), transduced with retroviral particles encoding ␤-galactos...

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John A. Thompson

Nitration and inactivation of manganese superoxide dismutase in chronic rejection of human renal allografts.

Carcinoembryonic antigen gene family: Molecular biology and clinical perspectives

Decreased Zinc Affinity of Amyotrophic Lateral Sclerosis‐Associated Superoxide Dismutase Mutants Leads to Enhanced Catalysis of Tyrosine Nitration by Peroxynitrite

Peroxynitrite-Mediated Inactivation of Manganese Superoxide Dismutase Involves Nitration and Oxidation of Critical Tyrosine Residues

Direct In Vivo Evidence Demonstrating Neointimal Migration of Adventitial Fibroblasts After Balloon Injury of Rat Carotid Arteries

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