Fractal dimension in CT low attenuation areas is predictive of long-term oxygen therapy initiation in COPD patients: Results from two observational cohort studies.

BACKGROUND: Some chronic obstructive pulmonary disease (COPD) patients develop hypoxemia with disease progression, with some even requiring long-term oxygen therapy (LTOT). Lung function, especially diffusing capacity, and the annual decline in PaO2, are reported to be predictive factors of chronic respiratory failure. However, the association between lung morphometry evaluated using computed tomography (CT) images and LTOT initiation is unknown. METHODS: We retrospectively evaluated the relationship between clinical indices, including pulmonary function, body mass index (BMI), and CT parameters, at baseline and LTOT initiation in two prospective COPD cohorts. In the Nara Medical University cohort (n = 76), the low attenuation area (LAA) and its fractal dimension (fractal D) were adapted as the indices for parenchymal destruction in CT images. The association between these CT measurements and LTOT initiation was replicated in the Kyoto University cohort (n = 130). RESULTS: In the Nara Medical University cohort, lower BMI (hazard ratio [HR]:0.70, p = 0.006), lower % diffusing capacity (%DLCO) (HR: 0.92, p = 0.006), lower %DLCO/VA (HR, 0.90, p = 0.008), higher RV/TLC (HR, 1.26, p = 0.012), higher LAA% (HR: 1.18, p = 0.001), and lower fractal D (HR: 3.27 × 10-8, p < 0.001) were associated with LTOT initiation. Multivariate analysis in the Kyoto University cohort confirmed that lower %DLCO and lower fractal D were independently associated with LTOT initiation, whereas LAA% was not. CONCLUSION: Fractal D, which is the index for morphometric complexity of LAA in CT analysis, is predictive of LTOT initiation in COPD patients.

Impaired Dual-Specificity Protein Phosphatase DUSP4 Reduces Corticosteroid Sensitivity.

We have reported that phosphorylation of the glucocorticoid receptor (GR) at Ser226 reduces GR nuclear translocation, resulting in corticosteroid insensitivity in patients with severe asthmas. A serine/threonine protein phosphatase 2A, which regulates c-Jun N-terminal kinase (JNK) 1 and GR-Ser226 signaling, is involved in this mechanism. Here, we further explored protein kinase dual-specificity phosphatases (DUSPs) with the ability to dephosphorylate JNK, and identified DUSP4 as a phosphatase involved in the regulation of corticosteroid sensitivity. The effects of knocking down DUSPs (DUSP1, 4, 8, 16, and 22) by small interfering RNA (siRNA) were evaluated in a monocytic cell line (U937). Corticosteroid sensitivity was determined by dexamethasone enhancement of FK506-binding protein 51 or inhibition of tumor necrosis factor α (TNFα)-induced interferon γ and interleukin 8 expression and GR translocation from cell cytoplasm to nucleus. The nuclear/cytoplasmic GR, phosphorylation levels of GR-Ser226 and JNK1, coimmunoprecipitated GR-JNK1-DUSP4, and DUSP4 expression were analyzed by western blotting and/or imaging flow cytometry. Phosphatase activity of immunoprecipitated (IP)-DUSP4 was measured by fluorescence-based assay. Knockdown of DUSP4 enhanced phosphorylation of GR-Ser226 and JNK1 and reduced GR nuclear translocation and corticosteroid sensitivity. Coimmunoprecipitation experiments showed that DUSP4 is associated with GR and JNK1. In peripheral blood mononuclear cells from severe asthmatics, DUSP4 expression was reduced versus healthy subjects and negatively correlated with phosphorylation levels of GR-Ser226 and JNK1. Formoterol enhanced DUSP4 activity and restored corticosteroid sensitivity reduced by DUSP4 siRNA. In conclusion, DUSP4 regulates corticosteroid sensitivity via dephosphorylation of JNK1 and GR-Ser226 DUSP4 activation by formoterol restores impaired corticosteroid sensitivity, indicating that DUSP4 is crucial in regulating corticosteroid sensitivity, and therefore might be a novel therapeutic target in severe asthma.

Protein tyrosine phosphatase PTP-RR regulates corticosteroid sensitivity.

BACKGROUND: We have recently reported that protein phosphate 2A (PP2A) inactivation resulted in increased phosphorylation of the mitogen-activated protein kinase (MAPK) c-Jun N-terminal kinase 1 (JNK1) and glucocorticoid receptors (GR) at Ser(226), thereby reducing GR nuclear translocation and causing corticosteroid insensitivity in severe asthmatics. Protein tyrosine phosphatases (PTPs) are also known to be critically involved in the regulation of MAPKs, such as JNK and therefore potentially associated with GR function. The aim of study was to elucidate the involvement of MAPK-PTPs (PTP-RR, PTP-N5 and PTP-N7), which can dephosphorylate MAPKs, in the regulation of corticosteroid sensitivity. METHODS: Corticosteroid sensitivity, GR nuclear translocation, phosphorylation levels of GR-Ser(226), JNK1 and PP2A catalytic subunit (PP2AC)-Tyr(307) and protein expression levels and activities of PTP-RR and PP2AC were evaluated in U937 cells and/or peripheral blood mononuclear cells (PBMCs). Knock-down effects of MAPK-PTPs using siRNA were also evaluated. RESULTS: Knock-down of PTP-RR, but not of PTP-N5 or PTP-N7 impaired corticosteroid sensitivity, induced GR-Ser(226) phosphorylation and reduced GR nuclear translocation. Under IL-2/IL-4-induced corticosteroid insensitivity, PTP-RR expression, activity and associations with JNK1 and GR were reduced but PTP-RR activity was restored by formoterol. Also in PBMCs from severe asthmatic patients, PTP-RR and JNK1 expression were reduced and GR-Ser(226) phosphorylation increased. Furthermore, PTP-RR was associated with PP2A. PTP-RR reduction enhanced PP2AC-Tyr(307) phosphorylation leading to impairment of PP2A expression and activity. CONCLUSIONS: We demonstrated that with corticosteroid insensitivity PTP-RR fails to reduce phosphorylation of JNK1 and GR-Ser(226), resulting in down-regulation of GR nuclear translocation. Reduced PTP-RR may represent a novel cause of corticosteroid insensitivity in severe asthmatics.

A novel therapeutic use of HFA-BDP metereddose inhaler for asthmatic patients with rhinosinusitis: Case series.

OBJECTIVE: Most asthmatics have been found to have rhinosinusitis (RS). Patients with ethmoid sinusitis, in particular, often suffer from an impaired sense of smell; this is clinically important and necessitates concurrent treatment for both asthma and RS. As a rational therapeutic strategy, we focused on a fine particle HFA-134abeclomethasone dipropionate (HFA-BDP) metered-dose inhaler. Because of its small size, the medication is still present in the exhaled breath after inhalation. METHODS: Five mild-to-moderate asthmatics with ethomoidpredominant sinusitis characterized by an impaired sense of smell and mild peripheral blood eosinophilia received a single-agent treatment with orally-inhaled HFA-BDP which was then exhaled through the nose. In addition, the stained small particles were created by an ultrasonic nebulizer and flow image of them during oral inhalation and nasal exhalation was evaluated by using nasal endoscopy. RESULTS: After treatment, the sense of smell was restored in all cases with a concomitant improvement in sinusitis as confirmed by computerized tomography. In addition, amelioration of peripheral blood eosinophilia as well as small airway obstruction as indicated by pulmonary function tests was observed. Macroscopical imaging revealed that small particles flow toward olfactory cleft during both the inhalation and exhalation phases. CONCLUSION: We have presented 5 cases of asthmatic patients with RS treated with a concurrent single therapy, HFA-BDP exhaled through the nose (ETN). A clinical trial must be considered to establish this new therapeutic strategy based on the concept of "one airway, one disease."