CD38-deficient mice have reduced airway hyperresponsiveness following IL-13 challenge

Guedes, Alonso; Paulin, Jaime; Rivero-Nava, Laura; Kita, Hirohito; Lund, Frances E.; Kannan, Mathur

doi:10.1152/ajplung.00187.2006

Cited by 59 publications

(83 citation statements)

References 42 publications

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“…Isolated tracheal rings from CD38 knockout mice, when pretreated with IL-13, showed significant reduction in rate of force development to carbachol compared with that of the IL-13-treated tracheae from the wild-type mice (84). However, intranasal exposure to IL-13 elicited a comparable inflammatory response in the both groups of mice (84). The findings of the above study indicate that IL-13-induced airway hyperresponsiveness requires CD38 expression in the airways and airway inflammation per se is not sufficient in the development of airway hyperresponsiveness.…”

Section: Inflammatory Cytokines and Cd38/cadpr-mediated Cellular Calcmentioning

confidence: 89%

“…When CD38 knockout and wild-type mice were intranasally exposed to IL-13, CD38 knockout mice displayed significantly attenuated airway hyperresponsiveness to inhaled methacholine compared with the wild-type controls (84). Isolated tracheal rings from CD38 knockout mice, when pretreated with IL-13, showed significant reduction in rate of force development to carbachol compared with that of the IL-13-treated tracheae from the wild-type mice (84). However, intranasal exposure to IL-13 elicited a comparable inflammatory response in the both groups of mice (84).…”

Section: Inflammatory Cytokines and Cd38/cadpr-mediated Cellular Calcmentioning

confidence: 97%

“…In order to determine if the in vitro effect of IL-13 on airway myocytes is representative of the physiologic effects of this cytokine, in vivo experiments were carried out in mouse models. When CD38 knockout and wild-type mice were intranasally exposed to IL-13, CD38 knockout mice displayed significantly attenuated airway hyperresponsiveness to inhaled methacholine compared with the wild-type controls (84). Isolated tracheal rings from CD38 knockout mice, when pretreated with IL-13, showed significant reduction in rate of force development to carbachol compared with that of the IL-13-treated tracheae from the wild-type mice (84).…”

Section: Inflammatory Cytokines and Cd38/cadpr-mediated Cellular Calcmentioning

confidence: 99%

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Calcium Signaling in Airway Smooth Muscle

Jude¹,

Wylam²,

Walseth³

et al. 2008

Proceedings of the American Thoracic Society

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Contractility of airway smooth muscle requires elevation of intracellular calcium concentration. Under resting conditions, airway smooth muscle cells maintain a relatively low intracellular calcium concentration, and activation of the surface receptors by contractile agonists results in an elevation of intracellular calcium, culminating in contraction of the cell. The pattern of elevation of intracellular calcium brought about by agonists is a dynamic process and involves the coordinated activities of ion channels located in the plasma membrane and the sarcoplasmic reticulum. Among the signaling molecules involved in this dynamic calcium regulation in airway smooth muscle cells are inositol 1,4,5-trisphosphate and cyclic ADPribose, which mobilize calcium from the sarcoplasmic reticulum by acting via the inositol 1,4,5-trisphosphate and ryanodine receptors, respectively. In addition, calcium influx from the extracellular space is critical for the repletion of the intracellular calcium stores during activation of the cells by agonists. Calcium influx can occur via voltage-and receptor-gated channels in the plasma membrane, as well as by influx that is triggered by depletion of the intracellular stores (i.e., store-operated calcium entry mechanism). Transient receptor potential proteins appear to mediate the calcium influx via receptor-and store-operated channels. Recent studies have shown that proinflammatory cytokines regulate the expression and activity of the pathways involved in intracellular calcium regulation, thereby contributing to airway smooth muscle cell hyperresponsiveness. In this review, we will discuss the specific roles of cyclic ADP-ribose/ryanodine receptor channels and transient receptor potential channels in the regulation of intracellular calcium in airway smooth muscle cells. DYNAMIC INTRACELLULAR CALCIUM REGULATION IN AIRWAY SMOOTH MUSCLE CELLSExposure of airway smooth muscle (ASM) cells to contractile agonists results in a biphasic elevation of intracellular calcium concentration ([Ca 21 ] i ) that is characterized by an initial rapid and transient rise in calcium, followed by a decline to a lower, sustained steady-state concentration above the basal level (1-3). This biphasic [Ca 21 ] i response results from calcium influx from the extracellular space and release of calcium from the intracellular stores (i.e., the sarcoplasmic reticulum [SR]). Earlier studies have attributed the initial rapid and transient phase of the [Ca 21 ] i response to release from the SR, while the sustained phase of the response was thought to be due to influx from the extracellular space (2-6). Recent investigations using the improved temporal and spatial resolution features of real-time confocal microscopy have shed light on the dynamics of the [Ca 21 ] i response in ASM cells. These studies have shown that the biphasic [Ca 21 ] i response of ASM cells elicited by contractile agonists in reality consists of propagating regenerative calcium oscillations that originate at a location within a cell and propagate...

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Section: Inflammatory Cytokines and Cd38/cadpr-mediated Cellular Calcmentioning

confidence: 89%

Section: Inflammatory Cytokines and Cd38/cadpr-mediated Cellular Calcmentioning

confidence: 97%

Section: Inflammatory Cytokines and Cd38/cadpr-mediated Cellular Calcmentioning

confidence: 99%

See 1 more Smart Citation

Calcium Signaling in Airway Smooth Muscle

Jude¹,

Wylam²,

Walseth³

et al. 2008

Proceedings of the American Thoracic Society

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“…Peptide-Asthma is characterized by airway hyperresponsiveness, which is largely attributed to hyperreactivity of airway smooth muscle (41)(42)(43)(44). However, the molecular mechanisms that control airway hyperresponsiveness and smooth muscle hyperreactivity are not fully understood.…”

Section: Inhibition Of Airway Hyperresponsiveness and Airway Smooth Mmentioning

confidence: 99%

The Association of Cortactin with Profilin-1 Is Critical for Smooth Muscle Contraction

Wang

Cleary

Wang

et al. 2014

Journal of Biological Chemistry

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Background: Profilin-1 (Pfn-1) regulates actin dynamics and contraction in smooth muscle. Results: Contractile activation increases the association of cortactin with Pfn-1 via c-Abl, which controls actin dynamics and contraction. Conclusion:The coupling of cortactin with Pfn-1 regulated by c-Abl is critical for actin polymerization and contraction. Significance: The c-Abl-mediated cortactin/Pfn-1 interaction is a novel mechanism for the regulation of smooth muscle contraction.

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“…Moreover Deshpande et al [88] have shown decreased lung responsiveness to different doses of metacholine in CD38-/-mice, as determined by changes in lung resistance and dynamic compliance. Airway hyperreactivity (AHR) was also shown to be diminished in CD38-/-mice in several mouse models of allergic inflammation [89][90][91]. CD38-/-mice develop significant airway and parenchymal inflammation after nasal IL-13 challenges and both WT and CD38-/-mice develop AHR.…”

Section: Adp-ribose Cyclasesmentioning

confidence: 99%

NAD+-Consuming Enzymes in the Regulation of Lung Immune Responses

Legutko¹,

Lekeux²,

Bureau³

2009

TOIJ

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Nicotinamide adenine dinucleotide (NAD+) plays a role as a coenzyme in numerous oxidation-reduction reactions and mediates not only energy metabolism and mitochondrial functions, but also calcium homeostasis, aging, and cell death. Moreover, extensive evidence attests to the great importance of the non-redox functions of NAD+ via NAD+-consuming enzymes. Indeed, ADP-ribose transferases, cADP-ribose synthases and sirtuins emerge as NAD+ dependent enzymes with potent regulatory function in many physiological and pathophysiological processes. They have been shown to be involved in several neurological and cardiovascular disorders as well as in cancer and inflammation. In this review we will summarize the current knowledge about function of NAD+-consuming enzymes in the regulation of the immune system with particular emphasis on lung inflammatory disorders.

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CD38-deficient mice have reduced airway hyperresponsiveness following IL-13 challenge

Cited by 59 publications

References 42 publications

Calcium Signaling in Airway Smooth Muscle

Calcium Signaling in Airway Smooth Muscle

The Association of Cortactin with Profilin-1 Is Critical for Smooth Muscle Contraction

NAD+-Consuming Enzymes in the Regulation of Lung Immune Responses

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