Disruption of Sirtuin 1–Mediated Control of Circadian Molecular Clock and Inflammation in Chronic Obstructive Pulmonary Disease

Yao, Hongwei; Sundar, Isaac K.; Huang, Yunbo; Gerloff, Janice; Sellix, Michael T.; Sime, Patricia J.; Rahman, Irfan

doi:10.1165/rcmb.2014-0474oc

Cited by 66 publications

(72 citation statements)

References 51 publications

(85 reference statements)

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“…We have shown that environmental CS exposure also causes circadian disruption, producing molecular clock dysfunction and enhanced inflammatory responses in the lungs (10). Abundance of clock proteins, such as BMAL1, PER2, and REV-ERBa, are reduced in peripheral blood mononuclear cells, sputum cells and lung tissues associated with inflammatory responses from smokers and patients with COPD when compared to nonsmokers (24). Hence, it is likely that the molecular clock dysfunction can augment lung inflammatory responses to environmental stressors/agents.…”

Section: Virus and Bacteriamentioning

confidence: 95%

“…It is possible that oxidative/carbonyl stress (CS)-mediated reduction of SIRT1 level/activity leads to hyperacetylation of clock proteins and/or clock gene-associated histones, culminating in abnormal rhythms of proinflammatory and molecular clock gene expression. Indeed, we have shown that molecular clock dysfunction, along with SIRT1 reduction, contributes to abnormal inflammatory responses in smokers and patients with COPD (24). SIRT1 activation reduces CS-induced acetylation and degradation of BMAL1 in mouse lungs.…”

Section: Sirtuin 1 and Clock Protein Deacetylation During Inflammatiomentioning

confidence: 95%

“…SIRT1 activation reduces CS-induced acetylation and degradation of BMAL1 in mouse lungs. Thus, targeting time-dependent pharmacological activation of SIRT1 may have considerable potential as a novel form of chronopharmacology in chronic airways disease (24). SIRT1 is also implicated in regulation of senescence during DDR (28).…”

Section: Sirtuin 1 and Clock Protein Deacetylation During Inflammatiomentioning

confidence: 99%

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Circadian Clock–Coupled Lung Cellular and Molecular Functions in Chronic Airway Diseases

Sundar¹,

Yao²,

Sellix

et al. 2015

Am J Respir Cell Mol Biol

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Airway diseases are associated with abnormal circadian rhythms of lung function, reflected in daily changes of airway caliber, airway resistance, respiratory symptoms, and abnormal immune-inflammatory responses. Circadian rhythms are generated at the cellular level by an autoregulatory feedback loop of interlocked transcription factors collectively referred to as clock genes. The molecular clock is altered by cigarette smoke, LPS, and bacterial and viral infections in mouse and human lungs and in patients with chronic airway diseases. Stressmediated post-translational modification of molecular clock proteins, brain and muscle aryl hydrocarbon receptor nuclear translocator-like 1 (BMAL1) and PERIOD 2, is associated with a reduction in the activity/ level of the deacetylase sirtuin 1 (SIRT1). Similarly, the levels of the nuclear receptor REV-ERBa and retinoic acid receptor-related orphan receptor a (ROR a), critical regulators of Bmal1 expression, are altered by environmental stresses. Molecular clock dysfunction is implicated in immune and inflammatory responses, DNA damage response, and cellular senescence. The molecular clock in the lung also regulates the timing of glucocorticoid sensitivity and phasic responsiveness to inflammation. Herein, we review our current understanding of clock-controlled cellular and molecular functions in the lungs, the impact of clock dysfunction in chronic airway disease, and the response of the pulmonary clock to different environmental perturbations.Furthermore, we discuss the evidence for candidate signaling pathways, such as the SIRT1-BMAL1-REV-ERBa axis, as novel targets for chronopharmacological management of chronic airway diseases.

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Section: Virus and Bacteriamentioning

confidence: 95%

Section: Sirtuin 1 and Clock Protein Deacetylation During Inflammatiomentioning

confidence: 95%

Section: Sirtuin 1 and Clock Protein Deacetylation During Inflammatiomentioning

confidence: 99%

See 1 more Smart Citation

Circadian Clock–Coupled Lung Cellular and Molecular Functions in Chronic Airway Diseases

Sundar¹,

Yao²,

Sellix

et al. 2015

Am J Respir Cell Mol Biol

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“…Similar to asthma, the diurnal variation in symptom severity has been observed during COPD exacerbations, with elevated risk for intubation during early morning hours in the emergency department (82). Exciting research is emerging showing environmental risks of COPD, such as tobacco smoking, can affect components of the circadian clock (83), which may lead to chronic inflammatory responses (84). As future studies elucidate the interrelationship between circadian rhythm and COPD, new therapeutic targets and approaches may emerge in COPD treatment.…”

Section: Circadian Rhythm In Copdmentioning

confidence: 99%

Timing Matters: Circadian Rhythm in Sepsis, Obstructive Lung Disease, Obstructive Sleep Apnea, and Cancer

et al. 2016

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Physiological and cellular functions operate in a 24-hour cyclical pattern orchestrated by an endogenous process known as the circadian rhythm. Circadian rhythms represent intrinsic oscillations of biological functions that allow for adaptation to cyclic environmental changes. Key clock genes that affect the persistence and periodicity of circadian rhythms include BMAL1/CLOCK, Period 1, Period 2, and Cryptochrome. Remarkable progress has been made in our understanding of circadian rhythms and their role in common medical conditions. A critical review of the literature supports the association between circadian misalignment and adverse health consequences in sepsis, obstructive lung disease, obstructive sleep apnea, and malignancy. Circadian misalignment plays an important role in these disease processes and can affect disease severity, treatment response, and survivorship. Normal inflammatory response to acute infections, airway resistance, upper airway collapsibility, and mitosis regulation follows a robust circadian pattern. Disruption of normal circadian rhythm at the molecular level affects severity of inflammation in sepsis, contributes to inflammatory responses in obstructive lung diseases, affects apnea length in obstructive sleep apnea, and increases risk for cancer. Chronotherapy is an underused practice of delivering therapy at optimal times to maximize efficacy and minimize toxicity. This approach has been shown to be advantageous in asthma and cancer management. In asthma, appropriate timing of medication administration improves treatment effectiveness. Properly timed chemotherapy may reduce treatment toxicities and maximize efficacy. Future research should focus on circadian rhythm disorders, role of circadian rhythm in other diseases, and modalities to restore and prevent circadian disruption.

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“…Cigarette smoking led to decreased Sirtuin-1 activity leading to altered Bmal I: Clock activity (12). This finding may be a contributing factor for increased inflammation seen in smokers with COPD (13).…”

mentioning

confidence: 98%

Lungs can tell time—a highlight from 2016 ATS session on clock genes, inflammation, immunology, and sleep

Lam¹,

Grandner²,

Malhotra

2016

J. Thorac. Dis.

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Disruption of Sirtuin 1–Mediated Control of Circadian Molecular Clock and Inflammation in Chronic Obstructive Pulmonary Disease

Cited by 66 publications

References 51 publications

Circadian Clock–Coupled Lung Cellular and Molecular Functions in Chronic Airway Diseases

Circadian Clock–Coupled Lung Cellular and Molecular Functions in Chronic Airway Diseases

Timing Matters: Circadian Rhythm in Sepsis, Obstructive Lung Disease, Obstructive Sleep Apnea, and Cancer

Lungs can tell time—a highlight from 2016 ATS session on clock genes, inflammation, immunology, and sleep

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