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Author Notes:

Corresponding author: David G Harrison Cardiology Division Emory University School of Medicine 1639 Pierce Drive Atlanta, GA 30322 Phone 404 727 8386 Fax 404 727 3585 dharr02@emory.edu

Subject:

Research Funding:

National Heart, Lung, and Blood Institute : NHLBI

Keywords:

  • cytokines
  • T cell
  • Interleukins
  • NADPH oxidase
  • neoantigen
  • angiotensin II

Inflammation, Immunity and Hypertension

Tools:

Journal Title:

Hypertension

Volume:

Volume 57, Number 2

Publisher:

, Pages 132-140

Type of Work:

Article | Post-print: After Peer Review

Abstract:

A prominent pathology textbook used in the United States includes an image illustrating the renal histopathology caused by malignant hypertension. The legend describes striking “onion skin” changes of a renal arteriole in the center of this figure. Curiously, a sea of mononuclear inflammatory cells surrounding this arteriole is overlooked both in the figure legend and in the related text. Moreover, nothing regarding inflammation or immune reactions is discussed. This lack of attention to inflammatory cells is, however, not surprising. While many experimental studies have implicated inflammation in hypertension, these have largely been performed in experimental animals and there is no proof that inflammation contributes to human hypertension. In fact, some anti-inflammatory or immune suppressing drugs (non-steroidal anti-inflammatory drugs and cyclosporine for example) paradoxically cause hypertension in humans, likely via off-target effects. Often the term “inflammation” is used in the context of cardiovascular disease as a catchall referring to non-specific phenomena such as elevation of C-reactive protein or the presence of macrophages in a tissue. Most clinicians and investigators find this vague and difficult to understand. Even more puzzling is that many studies now implicate the adaptive immune response, and in particular, lymphocytes in hypertension and vascular disease. Traditionally, bacterial, viral or tumor antigens activate this arm of immune defense. As such, it has been hard to imagine how adaptive immunity could be involved in a disease like hypertension. In this article, we will attempt to address some of these puzzling questions. We will briefly review components of the innate and adaptive immune response, discuss data from many groups, including our own, that suggest that common forms of hypertension are immune mediated, and provide a working hypothesis of how signals from the central nervous system trigger an immune response that causes hypertension.

Copyright information:

© 2011 American Heart Association, Inc.

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