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Mammalian Heme Peroxidases. Diverse Roles in Health and Disease

Clare Hawkins, William M Nauseef
ISBN: 9781032079646
ISBN: 9781032079646
Εκδόσεις:
Διαστάσεις 25 × 18 cm
Μορφή

Paperback
Εκδόσεις

Ημ. Έκδοσης

2024/01
Σελίδες

340
Έκδοση

1η έκδοση
Κύριος Συγγραφέας

,

53,00€(Περιλαμβάνεται ΦΠΑ 6%)

Διαθεσιμότητα: 23-28 ημέρες

Κατηγορίες: ,

Περιγραφή

Mammalian heme peroxidase enzymes play a critical role in innate immune responses and disease prevention. The formation of potent chemical oxidants is essential to this protective physiologic activity in immunity. Although highly beneficial in the context of immune defense, it is now well established that peroxidases and their overproduction of oxidants contribute to the initiation and persistence of many chronic inflammatory conditions in the cardiovascular, neurologic, respiratory, renal, and gastrointestinal systems. Peroxidasins, a protein family related to heme peroxidases, play a novel role in tissue biogenesis and matrix assembly, which are also attracting attention in different pathological contexts. Given the diverse roles of mammalian heme peroxidases and the breadth and incidence of pathologies associated with these enzymes, there has been significant interest in modulating peroxidase activity as a therapeutic strategy. This book highlights recent developments in our understanding of the chemistry, biochemistry and biological roles of mammalian peroxidases and their associated oxidants, their involvement in both innate immunity and chronic inflammatory disease in a variety of end organs, and potential therapeutic approaches to modulate and prevent damaging reactions.

 

Key Features

    • Structure and biosynthesis of mammalian peroxidases
    • Reactivity of hypohalous acids with biological substrates
    • Peroxidases in innate immunity
    • Peroxidases in human pathology
    • Modulation of peroxidase-induced biological damage

Περιεχόμενα

SECTION 1: INTRODUCTION TO MAMMALIAN HEME PEROXIDASES

Chapter 1: Evolution, structure and biochemistry of human peroxidases

Paul G. Furtmüller, Marcel Zámocký, Stefan Hofbauer, Christian Obinger*

 

Chapter 2: Biosynthesis of mammalian heme proteins, peroxidases and NADPH oxidases

William M. Nauseef*

 

Chapter 3: Peroxidasin structure and function

Gábor Sirokmány, Hajnal A. Kovács, Miklós Geiszt*

 

SECTION 2: REACTIVITY OF PEROXIDASE OXIDANTS

Chapter 4: Reactivity of peroxidase-derived oxidants with proteins, glycoproteins and proteoglycans

Michael J. Davies*

 

Chapter 5: Reactivity of hypochlorous acid (HOCl) with nucleic acids, RNA and DNA.

Clare L. Hawkins*

 

Chapter 6: Reactivity of peroxidase oxidants with lipids: The generation of biologically important modified lipids

Daniel P. Pike and David A. Ford*

 

Chapter 7: Roles of myeloperoxidase in the oxidation of apolipoproteins: Interest of monitoring MPO oxidation of apolipoproteins A-1 and B-100 to improve the estimation of lipoprotein quality in cardiovascular diseases

Catherine Coremans, Karim Zouaoui Boudjeltia, Pierre Van Antwerpen and Cédric Delporte*

 

Chapter 8: Global profiling of cell responses to (pseudo)hypohalous acids

Joshua Chandler*

 

SECTION 3: PEROXIDASES IN INNATE IMMUNITY

Chapter 9: MPO and immune cell recruitment and activation

Anne Klinke and Martin Mollenhauer*

 

Chapter 10: Bactericidal activity of the oxidants derived from mammalian heme peroxidases

Heather L. Shearer, Nina Dickerhof and Mark B. Hampton*

 

Chapter 11: Priming the innate immune system to combat respiratory disease

Brian Day*

 

SECTION 4: PEROXIDASES IN PATHOLOGY

Chapter 12: Imaging the reactivity of MPO in vivo

Cuihua Wang, Negin Jalali Motlagh, Enrico G. Kuellenberg, and John W. Chen*

 

Chapter 13: Role of MPO in endothelial dysfunction and cell signaling in atherosclerosis

Benjamin Rayner*

 

Chapter 14: MPO in ischemic heart disease

Dennis Mehrkens, Simon Geißen, Stephan Baldus, and Volker Rudolph*

 

Chapter 15: Role of MPO in neurodegenerative disease

Wanda F. Reynolds* and Richard A. Maki

 

Chapter 16: The pathogenesis and consequences of MPO-dependent ANCA and glomerulonephritis

Meghan E. Free*, Dominic J. Ciavatta, J. Charles Jennette and Ronald J. Falk

 

Chapter 17: Role of peroxidasins in disease

Gautam Bhave*

 

SECTION 5: PREVENTION OF MPO INDUCED DAMAGE

Chapter 18: Structure, function, and mechanistic insights into a novel family

of myeloperoxidase inhibitory proteins expressed by Staphylococci

Molly Allison, Nitin Mishra and Brian V. Geisbrecht*

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