Refinement of personalized treatment of cystic fibrosis (CF) with emerging medicines targeting the CF basic defect will likely benefit from biomarkers sensitive to detect improvement of cystic fibrosis transmembrane conductance regulator (CFTR) function in individual patients. Intestinal current measurement (ICM) is a technique that enables quantitative assessment of CFTR chloride channel function in rectal tissues or other intestinal epithelia. ICM was originally developed to study the CF ion transport defect in the intestine and has been established as a sensitive biomarker of CFTR function and diagnostic test for CF. With the emergence of CFTR-directed therapeutics, ICM has become an important tool to estimate the level of rescue of CFTR function achieved by approved CFTR modulators, both at the level of CFTR genotype groups, as well as individual patients with CF. In combination with preclinical patient-derived cell culture models, ICM may aid the development of targeted therapies for patients with rare CFTR mutations. Here, we review the principles of ICM and examine how this CFTR biomarker may be used to support diagnostic testing and enhance personalized medicine for individual patients with common as well as rare CFTR mutations in the new era of medicines targeting the underlying cause of CF.
- Graeber, S. Y.
- Vitzthum, C.
- Mall, M. A.
Keywords
- Cftr
- cystic fibrosis
- intestinal current measurement (ICM)
- personalized medicine
- submitted work. M.A.M. reports research grants and patient recruitment fees for
- clinical trials from Vertex, for which his institution Charité—Universitätsmedizin
- Berlin received payment
- fees for consulting and advisory board participation from
- Antabio, Arrowhead, Boehringer Ingelheim, Enterprise Therapeutics, Kither Biotech,
- Santhera, Sterna Biologicals, and Vertex Pharmaceuticals outside the submitted work.
