Mutation-specific Therapy for the Long QT Syndrome
Novel therapy for the Long QT Syndrome based on the mechanism of action of the disease-causing mutations Long QT syndrome type 2 (LQT2) accounts for \ 35% of all LQTS cases and is difficult to manage, as beta-blockers frequently fail to provide full protection. Most LQT2 patients (pts) have a Class 2 mutation, which implies defective trafficking. Lumacaftor (LUM) is a drug developed and currently indicated for the treatment of cystic fibrosis (CF) in patients homozygous for the F508del mutation in the CFTR gene. LUM corrects protein folding and trafficking defects of mutant and misfolded CFTR channels, restoring their cell surface expression. The investigators recently demonstrated that LUM can rescue in vitro the LQTS phenotype observed in human induced pluripotent stem cell- derived cardiomyocytes (hiPSC-CMs) from pts with LQT2 Class 2 mutations (PMID: 29020304) and in these same two patients Orkambi administrated for 7 days at the same dosage approved for cystic fibrosis showed to reduce their QTc (PMID: 30753398). With the present phase II clinical trial (MAST2) the investigators will enroll 20 LQT2 patients (see inclusion and exclusion criteria) and they will test in vivo the efficacy of Orkambi in shortening their QTc. Patients will be admitted to hospital for a maximum of 7 days (minimum in-hospital stay based on evidence of QTc shortening). Orkambi will be administered at the dose approved for cystic fibrosis and during the entire period continuous ECG monitoring through both telemetry and 12-lead 24-hr Holter monitoring will be performed and QTc length and morphology will be analyzed.
• Informed consent: it is requested that the partipants understand the nature of the study and can give their voluntary conset after being fully informed, after having received satisfying replies to their questions regarding the study, and all the authorizations according to local requirements. The informed consent form was previously approved by the local Ethics Committee and will have to be dated and signed before enrollment in the study.
• Age and gender: participants of both the male and female sex aged between 18 and 65 years will be included
• Mutations: the study will enrol patients with LQT2, i.e., with pathogenic mutations on the KCNH2 gene, that present such functional characterization that classifies them as class II mutations, namely mutations that cause a trafficking defect. This characterization includes, but is not limited to, patch clamp data in single cells, immunofluorescence data, positive reactions to drugs that correct the trafficking defect in vitro.
• Consent of the patient to not participate in any other clinical study during the entire period of participation in the present study
• Women with child-bearing potential (pre-menopausal women, less than two years after start of menopause and women who are not surgically sterile) must use a highly effective contraceptive method from 30 days before enrollment in the study until 28 days after the last administration of study drug. It is specified that the sole use of hormonal contraception, both oral, injectable, transdermic and implantable cannot be considered an effective contraceptive method. Orkambi (Lumacaftor/ivacaftor) may reduce the exposure to the hormonal contraceptives and possibly cause their ineffectiveness. Male patients with a female partner with child-bearing potential must use 2 forms of contraception (one of which should be a double-barrier method) from enrolment in the study until 28 days after the last administration of study drug. Highly effective contraceptive methods are: i) abstinence, ii) surgical sterilization (=6 months postsurgery), iii) intrauterine device or intrauterine system, iv) oral contraceptives combined with a barrier method, v) double-barrier method (e.g., male condom or diaphragm with vaginal spermicides).