Tezepelumab for severe asthma: elevating current practice to recognize epithelial driven profiles.

BACKGROUND: An increasing amount of evidence supports the relevance of epithelium across the wide spectrum of asthma pathobiology. On a clinical ground tezepelumab, selectively binding TSLP, a major epithelial cytokine, has demonstrated to be effective in asthma patients regardless their specific phenotype. In order to avoid the risk of considering tezepelumab as a not-specific option, the present perspective aims to sketch the tezepelumab best eligible patient profile and to propose some hallmarks of epithelial-driven disease by reviewing the published evidence on the drug mechanism of action and efficacy data. MAIN BODY: Although it cannot rely on standardised or exclusive "markers", the relationship between environment and poor asthma control might suggest a major relevance of the epithelial barrier dysfunction. In that light, allergy and asthma exacerbations concomitant with specific exposures (pathogens, pollutants, chemicals), as well as increased susceptibility to infections can be considered as the hallmark of an impaired epithelial immune response. Tezepelumab is effective in allergic patients, being able to reduce asthma exacerbations precipitated by the exposure to seasonal or perennial aeroallergens, including fungi. In addition, tezepelumab reduced the incidence of co-occurring respiratory illness and asthma exacerbations. In terms of inflammation, epithelial immune response has been related to an impaired mucus hypersecretion and plugging. A placebo-controlled trial demonstrated a significant reduction of mucus plugging in treated patient. Airways hyperreactivity (AHR), airways obstruction and remodelling have been described as an expression of epithelial orchestrated immunological activation. Of note, a significantly higher incidence of mannitol negative test in patients treated with tezepelumab when compared to placebo group has been observed. In addition, A 130 mL improvement in pre-BD FEV1 has been described in patients assuming Tezepelumab. The above-mentioned data suggest that bronchial reversibility and AHR can be considered "functional biomarkers" supporting patients' phenotyping and the identification of tezepelumab best responders. CONCLUSION: Integrating "functional biomarkers" to the inflammatory ones and a better characterization of asthma exacerbations might pave the way to a different and more transversal phenotyping, which overcomes the "restrictive" labels including T2 high, allergic/atopic or T2 low asthma. Precisely defining the disease characteristics and potential targets for a better control even in tezepelumab eligible subjects is essential to avoid the block buster temptation and optimize the personalized medicine approach according to each patient's individuality.

The extracellular matrix of the lung and airway responsiveness in asthma.

The extracellular matrix is the main determinant of the structure and of mechanical behaviour of the lung. The extracellular matrix is also responsible for the mechanical interdependence between airway and parenchyma due to the alveolar attachments to the airways. Asthma is characterized by bronchial hyperresponsiveness, airway remodelling and inflammation, and an altered extracellular matrix may play a role in all these functional and structural abnormalities. The excessive airway narrowing observed in asthma may be related to the altered viscoelastic properties of lung parenchyma and airway wall, determining a decrease in the mechanical load opposing the airways' smooth muscle contraction. Indeed, an altered extracellular matrix deposition in asthma in humans, has been demonstrated. In addition, in the asthmatic lung, the matrix seems to contribute to airway inflammation, airway remodelling, and to those alterations of the smooth muscle function of the airway and morphology typical of asthma.

Airway inflammation in patients affected by obstructive sleep apnea syndrome.

Obstructive sleep apnea syndrome (OSAS) has been shown to be associated to upper airway inflammation. The object of the present study was to establish the presence of bronchial inflammation in OSAS subjects. In 16 subjects affected by OSAS, and in 14 healthy volunteers, airway inflammation was detected by the cellular analysis of the induced sputum. OSAS patients, as compared to control subjects, showed a higher percentage of neutrophils (66.7+/-18.9 vs. 25.8+/-15.6) (P<0.001) and a lower percentage of macrophages (29.4+/-18.4 vs. 70.8+/-15.3) (P<0.001). The percentage of eosinophils and lymphocytes were not significantly different in the two groups. OSAS subjects show bronchial inflammation characterized by a significant increase in neutrophils.