Cystic Fibrosis Clinical Trial
Official title:
Anti-inflammatory Pulmonal Therapy of CF Patients With Amitriptyline and Placebo - a Randomised, Double-blind, Placebo-controlled, Multicenter, Cohort - Study
Cystic fibrosis patients suffer from a chronic destruction of the lung, frequent and finally
chronic pneumonia and a reduced life expectancy. Unfortunately, no curative treatment for
cystic fibrosis is available, neither are treatments established that prevent the disease.
Our data identify ceramide as a potential novel target to treat cystic fibrosis.
Two smaller trials support the notion that inhibition of the acid sphingomyelinase by
amitriptyline improves the lung function of CF-patients even at a dose that is low enough to
avoid adverse effects.
In the present proposal the investigators, therefore, aim to test in a larger cystic
fibrosis patient population whether an inhibition of ceramide release in the lung caused by
the lack of functional CFTR improves the lung function of cystic fibrosis patients.
Inhibition of ceramide-release in the lung will be achieved by treatment with amitriptyline,
which is used as an anti-depressant drug for almost 50 years. Although it is not absolutely
specific, it seems to be relatively specific for the degradation of acid sphingomyelinase
(typically 60-80% of cellular acid sphingomyelinase are degraded), which releases ceramide
from sphingomyelin.
If the data confirm the beneficial effect of amitriptyline already observed in our
preliminary studies, the present clinical study may establish a novel treatment to improve
clinical symptoms of cystic fibrosis and, moreover, to prevent or at least delay the onset
of cystic fibrosis.
Hypothesis
- Amitriptyline reduces ceramide concentrations in respiratory epithelial cells (measured
in nasal epithelial cells obtained by brushing nasal mucosa).
- Amitriptyline treatment reduces cell death in bronchi and deposition of DNA on the
respiratory epithelium, which permits elimination of P. aeruginosa from the lung
(measured as P. aeruginosa counts in tracheal fluid).
- Amitriptyline treatment results in normalization of the function of leukocytes (number
determined in serum and tracheal fluid)
- Amitriptyline reduces systemic and local inflammation (measured as cytokines in plasma
and tracheal fluid).
Based on these effects amitriptyline increases the lung function of cystic fibrosis patients
(measured by FEV1).
Cystic fibrosis (CF), the most common autosomal recessive disorder at least in western
countries, is caused by mutations of the cystic fibrosis transmembranous conductance
regulator molecule (CFTR) and affects approximately 40 000 patients in Europe. Most, if not
all, CF-patients develop a chronic pulmonary infection with Pseudomonas aeruginosa (P.
aeruginosa). At present, it is unknown why CF-patients are highly sensitive to P. aeruginosa
infections and, most importantly, no curative treatment for cystic fibrosis is available.
Our studies provided a novel pathophysiological concept for cystic fibrosis. The
investigators demonstrated that ceramide plays a crucial role in the development of cystic
fibrosis and the high sensitivity of Cftr-deficient mice to infection with P. aeruginosa
(1,2). Using biochemical techniques, fluorescence microscopy, and mass spectrometry, the
investigators found that ceramide accumulates in the lungs of various Cftr-deficient mouse
strains before any infection occurs, in particular in the epithelial cells of large and
small bronchi and in alveolar macrophages. The accumulation of ceramide in Cftr-deficient
epithelial cells may be mediated by an increase in pH from 4.5 to 6.0 in secretory lysosomes
and pre-lysosomes of Cftr-deficient cells. The change in pH results in a reduction of
approximately 90% in the activity of acid ceramidase which consumes ceramide, and a
reduction of only 35% in the activity of acid sphingomyelinase which releases ceramide. An
imbalance in the activity of these two enzymes, by which a relative over-activity of acid
sphingomyelinase produces ceramide, may then result in an accumulation of ceramide. Partial
inhibition of acid sphingomyelinase, either genetically or pharmacologically, returns
ceramide concentrations to near normal levels in the lungs of Cftr-deficient mice. Genetic
inhibition of acid sphingomyelinase was achieved by crossing Cftr-deficient mice with acid
sphingomyelinase-deficient mice to create mice deficient in Cftr and heterozygous for acid
sphingomyelinase (Cftr-/-/Smpd1+/- mice). The activity of acid sphingomyelinase in the lungs
of these mice was approximately 50% lower than in the lungs of wild-type mice.
Pharmacological inhibition of acid sphingomyelinase was achieved by treating Cftr-deficient
mice with the functional acid sphingomyelinase inhibitor amitriptyline (1,2). Increased
concentrations of ceramide in the bronchial epithelial cells of Cftr-deficient mice
triggered death of these cells, the deposition of DNA in bronchi, chronic pulmonary
inflammation, and a high susceptibility of Cftr-deficient mice to pulmonary infections with
P. aeruginosa. Normalisation of ceramide concentrations by genetic means normalised these
changes, and pharmacological inhibition of acid sphingomyelinase prevented these changes.
Ceramide accumulation was also observed in ciliated nasal epithelial cells, macrophages and
lung transplant materials from CF patients (1-4). This finding suggests that the results of
our murine studies also apply to humans with cystic fibrosis. Next, the investigators
applied a panel of functional inhibitors of acid sphingomyelinase and treated Cftr-deficient
mice by inhalation of amitriptyline, trimipramine, desipramine, chlorprothixene, fluoxetine,
amlodipine, or sertraline, all of which are functional inhibitors of acid sphingomyelinase.
This inhalation reduced the activity of acid sphingomyelinase specifically in the lung and
normalised pulmonary ceramide concentrations, inflammation, and susceptibility to infection
(2). Recent findings by C. Ward and associates confirmed the accumulation of ceramide in
lung specimens from CF patients (5).
Clinical data:
1. Pilot study - Based on the amitriptyline-mediated protection of Cftr-deficient mice,
the investigators initiated a small clinical cross over study with 4 cystic fibrosis
patients that were treated with amitriptyline or placebo, respectively. The results
revealed a clinical relevant increase of the lung function (determined as FEV1) in all
cystic fibrosis patients after treatment with amitriptyline for 2 weeks.
2. Phase IIa - The positive data of the pilot study encouraged us to initiate a Phase IIa
cross over study in 18 patients and to investigate a beneficial effect of amitriptyline
on cystic fibrosis in a larger patient population to prove safety, biochemically prove
the mechanisms of action, and for dose finding of amitriptyline (25 mg/day, 50 mg/day,
75 mg/day). Amitriptyline was well-tolerated in the patient group and no SAEs were
recorded at the end of the 28-day-course. From the 80 AEs, 35 were related or possibly
related to the medication. Two well-known AEs of amitriptyline, i.e. xerostomia and
tiredness, were significantly different between placebo and the three amitriptyline
treatment groups, but were mostly transient. FEV1 was analysed in the per protocol
analysis in 13, 7, 8 and 8 available patient cycles, who had received placebo, 25 mg,
50 mg or 75 mg amitriptyline/day, respectively. After 14 days of treatment the primary
endpoint FEV1 had improved significantly in the 25 mg/d amitriptyline group relative to
placebo (FEV1: +5.0% compared to the placebo group; p = 0.048). No significant change
of lung function was observed when patients were administered 50 mg and 75 mg of
amitriptyline (6).
3. Phase IIb - To evaluate the positive data of the phase IIa-trial, the investigators
initiated a phase IIb study in 2009 with a parallel group design.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
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