Heinzelmann Katharina, Fysikopoulos Athanasios, Jaquin Thomas J, Peper-Gabriel Janet K, Hansbauer Eva-Maria, Grüner Stefan, Prassler Josef, Wurzenberger Claudia, Kennedy Joseph G C, Snead Jazmin Y, Wrennall Joe A, Heinig Kristina, Wurzenberger Cornelia, Bel Aiba Rachida-Siham, Tarran Robert, Livraghi-Butrico Alessandra, Fitzgerald Mary F, Anderson Gary P, Rothe Christine, Matschiner Gabriele, Olwill Shane A, Hagner Matthias
Pieris Pharmaceuticals GmbH, Hallbergmoos, Germany.
Marsico Lung Institute/Cystic Fibrosis Center, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, United States.
Am J Physiol Lung Cell Mol Physiol. 2025 Jan 1;328(1):L75-L92. doi: 10.1152/ajplung.00059.2024. Epub 2024 Nov 5.
Mucus hypersecretion and mucus obstruction are pathogenic features in many chronic lung diseases directly linked to disease severity, exacerbation, progression, and mortality. The Jagged-1/Notch pathway is a promising therapeutic target that regulates secretory and ciliated cell trans-differentiation in the lung. However, the Notch pathway is also required in various other organs. Hence, pulmonary delivery of therapeutic agents is a promising approach to target this pathway while minimizing systemic exposure. Using Anticalin technology, Jagged-1 Anticalin binding proteins were generated and engineered to potent and selective inhalable Jagged-1 antagonists. Their therapeutic potential to reduce airway mucus hyperproduction and obstruction was investigated ex vivo and in vivo. In primary airway cell cultures grown at an air-liquid interface and stimulated with inflammatory cytokines, Jagged-1 Anticalin binding proteins reduced both mucin gene expression and mucous cell metaplasia. In vivo, prophylactic and therapeutic treatment with a pulmonary-delivered Jagged-1 Anticalin binding protein reduced mucous cell metaplasia, epithelial thickening, and airway mucus hyperproduction in IL-13 and house dust mite allergen-challenged mice, respectively. Furthermore, in a transgenic mouse model with pathophysiologic features of cystic fibrosis and chronic obstructive pulmonary disease (COPD), pulmonary-delivered Jagged-1 Anticalin binding protein reduced hallmarks of airway mucus obstruction. In all in vivo models, a reduction of mucous cells with a concomitant increase of ciliated cells was observed. Collectively, these findings support Jagged-1 antagonists' therapeutic potential for patients with muco-obstructive lung diseases and the feasibility of targeting the Jagged-1/Notch pathway by inhalation. Airway mucus drives severity and mortality in diverse chronic lung diseases. The Jagged-1/Notch pathway controls the balance of ciliated versus mucous cells, but targeting the pathway systemically carries the risk of side effects. Here we developed novel, Anticalin-derived, pulmonary-delivered Jagged-1 antagonists, to inhibit airway mucus hyperproduction and obstruction in chronic lung diseases. Our preclinical data demonstrate the effectiveness of these antagonists in diminishing secretory cell and mucus levels and alleviating hallmarks of mucus obstruction.
黏液高分泌和黏液阻塞是许多慢性肺部疾病的致病特征,与疾病严重程度、急性加重、进展和死亡率直接相关。Jagged-1/Notch信号通路是一个有前景的治疗靶点,可调节肺内分泌细胞和纤毛细胞的转分化。然而,Notch信号通路在其他各种器官中也有需求。因此,经肺部递送治疗药物是一种有前景的方法,可在最小化全身暴露的同时靶向该信号通路。利用抗钙素技术,生成了Jagged-1抗钙素结合蛋白,并将其设计成强效且选择性的可吸入Jagged-1拮抗剂。研究了它们在体外和体内减少气道黏液过度产生和阻塞的治疗潜力。在气液界面培养并受到炎性细胞因子刺激的原代气道细胞培养物中,Jagged-1抗钙素结合蛋白降低了黏蛋白基因表达和黏液细胞化生。在体内,经肺部递送的Jagged-1抗钙素结合蛋白进行预防性和治疗性处理,分别减少了白细胞介素-13和屋尘螨过敏原激发小鼠的黏液细胞化生、上皮增厚和气道黏液高分泌。此外,在具有囊性纤维化和慢性阻塞性肺疾病(COPD)病理生理特征的转基因小鼠模型中,经肺部递送的Jagged-1抗钙素结合蛋白减少了气道黏液阻塞的特征。在所有体内模型中,均观察到黏液细胞减少,同时纤毛细胞增加。总体而言,这些发现支持Jagged-1拮抗剂对黏液阻塞性肺部疾病患者的治疗潜力,以及通过吸入靶向Jagged-1/Notch信号通路的可行性。气道黏液会导致多种慢性肺部疾病的严重程度增加和死亡率上升。Jagged-1/Notch信号通路控制着纤毛细胞与黏液细胞的平衡,但全身靶向该信号通路存在副作用风险。在此,我们开发了新型的、源自抗钙素的、经肺部递送的Jagged-1拮抗剂,以抑制慢性肺部疾病中的气道黏液过度产生和阻塞。我们临床前数据证明了这些拮抗剂在减少分泌细胞和黏液水平以及减轻黏液阻塞特征方面的有效性。
