Science and Research

CEACAM6 as a Novel Therapeutic Target to Boost HO-1-mediated Antioxidant Defense in COPD

Rationale: Tobacco smoking and air pollution are primary causes of chronic obstructive pulmonary disease (COPD). However, only a minority of smokers develop COPD. The mechanisms underlying the defense against nitrosative/oxidative stress in nonsusceptible smokers to COPD remain largely unresolved. Objectives: To investigate the defense mechanisms against nitrosative/oxidative stress that possibly prevent COPD development or progression. Methods: Four cohorts were investigated: 1) sputum samples (healthy, n = 4; COPD, n = 37), 2) lung tissue samples (healthy, n = 13; smokers without COPD, n = 10; smoker+COPD, n = 17), 3) pulmonary lobectomy tissue samples (no/mild emphysema, n = 6), and 4) blood samples (healthy, n = 6; COPD, n = 18). We screened 3-nitrotyrosine (3-NT) levels, as indication of nitrosative/oxidative stress, in human samples. We established a novel in vitro model of a cigarette smoke extract (CSE)-resistant cell line and studied 3-NT formation, antioxidant capacity, and transcriptomic profiles. Results were validated in lung tissue, isolated primary cells, and an ex vivo model using adeno-associated virus-mediated gene transduction and human precision-cut lung slices. Measurements and Main Results: 3-NT levels correlate with COPD severity of patients. In CSE-resistant cells, nitrosative/oxidative stress upon CSE treatment was attenuated, paralleled by profound upregulation of heme oxygenase-1 (HO-1). We identified carcinoembryonic antigen cell adhesion molecule 6 (CEACAM6) as a negative regulator of HO-1-mediated nitrosative/oxidative stress defense in human alveolar type 2 epithelial cells (hAEC2s). Consistently, inhibition of HO-1 activity in hAEC2s increased the susceptibility toward CSE-induced damage. Epithelium-specific CEACAM6 overexpression increased nitrosative/oxidative stress and cell death in human precision-cut lung slices on CSE treatment. Conclusions: CEACAM6 expression determines the hAEC2 sensitivity to nitrosative/oxidative stress triggering emphysema development/progression in susceptible smokers.

  • Wu, C. Y.
  • Cilic, A.
  • Pak, O.
  • Dartsch, R. C.
  • Wilhelm, J.
  • Wujak, M.
  • Lo, K.
  • Brosien, M.
  • Zhang, R.
  • Alkoudmani, I.
  • Witte, B.
  • Pedersen, F.
  • Watz, H.
  • Voswinckel, R.
  • Günther, A.
  • Ghofrani, H. A.
  • Brandes, R. P.
  • Schermuly, R. T.
  • Grimminger, F.
  • Seeger, W.
  • Sommer, N.
  • Weissmann, N.
  • Hadzic, S.

Keywords

  • Humans
  • Antigens, CD/metabolism
  • Antioxidants
  • Cell Adhesion Molecules/metabolism
  • *Emphysema
  • GPI-Linked Proteins/adverse effects/metabolism
  • Heme Oxygenase-1/metabolism
  • Oxidative Stress
  • *Pulmonary Disease, Chronic Obstructive
  • *Pulmonary Emphysema
  • Tobacco
  • 3-nitrotyrosine
  • Copd
  • antioxidant defense
  • cigarette smoke
  • lung emphysema
Publication details
DOI: 10.1164/rccm.202208-1603OC
Journal: Am J Respir Crit Care Med
Pages: 1576-1590 
Number: 12
Work Type: Original
Location: ARCN, UGMLC
Disease Area: COPD
Partner / Member: Ghd, JLU, MPI-BN
Access-Number: 37219322

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