Targeted expression of heme oxygenase-1 prevents the pulmonary inflammatory and vascular responses to hypoxia

Minamino, Tohru; Christou, Helen; Hsieh, Chung Ming; Liu, Yuxiang; Dhawan, Vijender; Abraham, Nader G.; Perrella, Mark A.; Mitsialis, S. Alex; Kourembanas, Stella

doi:10.1073/pnas.161272598

Cited by 351 publications

(255 citation statements)

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“…Sustained increases in their levels have been associated with persistent inflammation, neovascularization, and decreased re-epithelialization and tissue repair. 44 -47 The fact that these same chemokines are subjected to down-regulation by either HO-1 induction or supplementation of CO or biliverdin, 21,43,48,49 further underscores the notion that the absence of considerable HO activity promoted the uncontrolled massive production of proinflammatory signals and, consequently, chronic inflammation and neovascularization. This is strongly supported by the demonstration that biliverdin administration rescued the impaired inflammatory and reparative response of the HO-2-null mice; it accelerated wound repair, promoted resolution, and attenuated neovascularization.…”

Section: Discussionmentioning

confidence: 99%

“…More importantly, these inflammatory cells showed a weak HO-1 immunoreactivity. To the extent that the HO catalytic products, CO and biliverdin, are stop signals to control leukocyte migration and activation by attenuating adhesion molecule expression 8,17 and cytokine and chemokine induction, 20,22,[41][42][43] the lack of sufficient HO-1 levels in HO-2-null mice may increase migration, lower the threshold of leukocyte activation (ie, O 2 Ϫ generation) and contribute to leukocyte-mediated tissue injury. This notion is substantiated by results obtained with zymosan A-induced peritonitis in HO-2-null mice that demonstrated pronounced increases in leukocyte influx, NADPH oxidase activity, and KC levels, all associated with impaired induction of PMNs and macrophage HO-1.…”

Section: Discussionmentioning

confidence: 99%

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Heme Oxygenase-2 Is a Critical Determinant for Execution of an Acute Inflammatory and Reparative Response

Seta

Bellner

Rezzani

et al. 2006

The American Journal of Pathology

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118

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Heme oxygenase (HO) represents an intrinsic antiinflammatory system based on its ability to regulate leukocyte function and inhibit expression of proinflammatory cytokines. This anti-inflammatory function is linked to the inducible isoform HO-1; the role of the constitutive isoform HO-2 is unknown. The current study was undertaken to investigate the role of HO-2 in the regulation of the acute inflammatory and reparative response by using HO-2-null mice and well-established animal models of epithelial injury and antigen-induced peritonitis. Here we show that in vivo deletion of HO-2 disables execution of the acute inflammatory and reparative response after epithelial injury and leads to an exaggerated inflammatory response in antigen-induced peritonitis. HO-2 deletion was associated with impaired HO-1 induction, indicating that HO-2 is critical for HO-1 expression and that the subsequent failure to up-regulate the HO system may contribute to unresolved inflammation and the development of chronic inflammatory conditions. Indeed, supplementation with the HO bioactive product, biliverdin, rescued the acute inflammatory and reparative response in HO-2-null mice. Thus, HO-2 sets in place a basal tone of anti-inflammatory signals that may be a prerequisite for the ordered execution of an inflammatory and reparative response.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Heme Oxygenase-2 Is a Critical Determinant for Execution of an Acute Inflammatory and Reparative Response

Seta

Bellner

Rezzani

et al. 2006

The American Journal of Pathology

Self Cite

118

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“…HO-1 overexpression has shown antiinflammatory or immunomodulatory effects in models of acute disease (10,16,36,(45)(46)(47). Less is known about the possible role of this enzyme in chronic inflammatory diseases, which involve complex interactions between different cell populations and a wide range of mediators.…”

Section: Discussionmentioning

confidence: 99%

Influence of heme oxygenase 1 modulation on the progression of murine collagen‐induced arthritis

Devesa¹,

Ferrándiz²,

Terencio³

et al. 2005

Arthritis & Rheumatism

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Objective. Heme oxygenase 1 (HO-1) can be induced by inflammatory mediators as an adaptive response. The objective of the present study was to determine the consequences of HO-1 modulation in the murine collagen-induced arthritis (CIA) model.Methods. DBA/1J mice were treated with an inhibitor of HO-1, tin protoporphyrin IX (SnPP), or with an inducer of HO-1, cobalt protoporphyrin IX (CoPP), from day 22 to day 29 after CIA induction. The clinical evolution of disease was monitored visually. At the end of the experiment, joints were examined for histopathologic changes. Cytokine levels in paws were measured by enzyme-linked immunosorbent assay. Levels of HO-1, cyclooxygenase 2 (COX-2), and prostaglandin E 2 (PGE 2 ) were determined. Effects of treatments on the early phase of disease and after prophylactic administration were also assessed.Results. CoPP strongly induced HO-1, resulting in the inhibition of cartilage erosion accompanied by extensive fibrosis in the joint. Levels of tumor necrosis factor ␣ (TNF␣), interleukin-2 (IL-2), and IL-10 were inhibited by CoPP, whereas levels of vascular endothelial growth factor were increased. Treatment with SnPP significantly reduced the severity of CIA, with inhibition of joint inflammation and cartilage destruction. The levels of PGE 2 , IL-1␤, and TNF␣ were also significantly reduced by SnPP treatment, which did not modify COX-2 protein expression. SnPP was more effective than CoPP in preventing the development of CIA (prophylactic administration).Conclusion. HO-1 is induced during CIA. Although overexpression of this protein causes some beneficial effects, strategies aimed at HO-1 overexpression cannot slow the progression of the chronic inflammatory disease, whereas treatment with SnPP, which inhibits HO-1, exerts prophylactic and therapeutic effects.

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“…The main hypotheses to explain HAPE lie on excessive vasoconstriction, excessive inflammation due to hypoxia, or downregulation of alveolar cell ion pumps that move sodium and fluid from alveoli into the blood stream [34]. As mice exposed to chronic hypoxia develop lung inflammation [35], it is conceivable that acute hypoxia may trigger acute lung inflammation. However, acute inflammation and HPV may not coexist, as inflammation caused by lipopolysaccharide prevents HPV (Fig.…”

Section: Hypoxia Signaling In the Lungmentioning

confidence: 99%

Hypoxia and chronic lung disease

et al. 2007

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The lung is both the conduit for oxygen uptake and is also affected by hypoxia and hypoxia signaling. Decreased ventilatory drive, airway obstructive processes, intra-alveolar exudates, septal thickening by edema, inflammation, fibrosis, or damage to alveolar capillaries will all interpose a significant and potentially life-threatening barrier to proper oxygenation, therefore enhancing the alveolar/arterial pO 2 gradient. These processes result in decreased blood and tissue oxygenation. This review addresses the relationship of hypoxia with lung development and with lung diseases. We particularly focus on molecular mechanisms underlying hypoxia-driven physiological and pathophysiological lung processes, specifically in the infant lung, pulmonary hypertension, and chronic obstructive pulmonary disease.Keywords Hypoxia . Lung . Pathology . HIF Air, containing oxygen at approximately 21% partial pressure at sea level (140-150 mmHg), travels through up to 20 generations of airways by mass flow and then diffuses into the gas exchange units (alveoli) in the lung with a partial pressure of approximately 105-110 mmHg. The human lung contains approximately 480 million alveoli, which represent 64% of total lung structure. These alveoli are elegantly packed in only 1.3-2.6 L of total lung volume, providing a surface area of 120-150 m 2 , equivalent to the dimensions of a "tennis court" dedicated for gas exchange. Although the molecular determinants of lung size are not known, oxygen diffusion constant and gas exchange surface area are roughly proportional to body weight and oxygen consumption in different species [1]. Physical hyperactivity and exposure to a cold environment or high altitude lead to increased oxygen diffusion capacity, in proportion to enhanced oxygen consumption [1].Decreased ventilatory drive, airway obstructive processes, intraalveolar exudates, septal thickening by edema, inflammation, fibrosis, or damage to alveolar capillaries will all interpose a significant and potentially life-threatening barrier to proper oxygenation, therefore enhancing the alveolar/ arterial pO 2 gradient. This review addresses the contribution of hypoxia to lung diseases and the potential molecular mechanisms involved in hypoxia-driven physiological and pathophysiological lung processes (Fig. 1), particularly in the infant lung, pulmonary hypertension, and chronic obstructive pulmonary disease. The fundamental concepts underlying hypoxia-induced gene expression and the molecular regulation of HIF(s) also apply to the lung, and they will be cited in relation to their demonstrated role in lung physiology or pathophysiology.

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Targeted expression of heme oxygenase-1 prevents the pulmonary inflammatory and vascular responses to hypoxia

Cited by 351 publications

References 31 publications

Heme Oxygenase-2 Is a Critical Determinant for Execution of an Acute Inflammatory and Reparative Response

Heme Oxygenase-2 Is a Critical Determinant for Execution of an Acute Inflammatory and Reparative Response

Influence of heme oxygenase 1 modulation on the progression of murine collagen‐induced arthritis

Hypoxia and chronic lung disease

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