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Copyright ©ERS Journals Ltd 2006
Cough and hypereosinophilia due to FIP1L1-PDGFRA fusion gene with tyrosine kinase activity
1 National Heart and Lung Institute, Imperial College and Royal Brompton Hospital, 4 St Mary's Hospital Campus of Imperial College, London, and, 2 Wessex Regional Genetics Laboratory, Salisbury District Hospital, Salisbury, UK. 3 III Medizinische Universitätsklinik, Fakultät für Klinische Medizin Mannheim der Universität Heidelberg, Heidelberg, Germany.
CORRESPONDENCE: K. F. Chung, National Heart and Lung Institute, Dovehouse Street, London SW3 6LY, UK. Fax: 44 2073518126. E-mail: f.chung{at}imperial.ac.uk
Keywords: Cough, fusion gene, hypereosinophilic syndrome, imatinib, tyrosine kinase
Received: August 2, 2005
Accepted October 13, 2005
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ABSTRACT |
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 TOP ABSTRACT CASE REPORTDISCUSSIONREFERENCES |
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Eosinophil-associated conditions, such as asthma and eosinophilic bronchitis, have been associated with chronic persistent cough, usually responding to corticosteroid therapy.
This case study reports a case of persistent cough associated with gastro-oesophageal reflux (GOR) and hypereosinophilia. Treatment of GOR with proton pump inhibitors and fundoplication did not control the cough. However, high dose prednisolone, but not inhaled corticosteroids, did.
The presence of the FIP1L1-PDGFRA fusion gene in myeloid cells was confirmed by fluorescence in situ hybridisation analysis using CHIC2 deletion as a surrogate marker. The cough and other disease features were subsequently suppressed by the tyrosine kinase inhibitor, imatinib.
This is the first case of persistent cough caused by hypereosinophilic syndrome characterised by FIP1L1-PDGFRA fusion gene and aberrant tyrosine kinase activity.
Chronic cough is a common clinical problem 1, 2. Asthma, post-nasal drip or rhino-sinusitis, and gastro-oesophageal reflux are the most common causes of chronic cough 3, but in many patients, no cause can be identified despite thorough investigations and empirical treatment 4, 5. Conditions associated with eosinophils in the airways, such as asthma and eosinophilic bronchitis, have been associated with chronic cough and treatment with corticosteroids, which suppress eosinophils, is usually effective in controlling such cough. This study describes a patient with persistent cough associated with FIP1L1-PDGFRA positive hypereosinophilia, a condition that has been described recently 6. This cough was controlled by high-dose oral corticosteroid therapy and also by a specific inhibitor of this acquired, constitutively active tyrosine kinase, imatinib.
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CASE REPORT |
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TOPABSTRACTCASE REPORTDISCUSSIONREFERENCES |
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A previously well 54-yr-old male scientist, an expert in bomb disposal, developed a chronic cough in 2001. He was investigated using spirometry, computed tomograms of the lungs and an endobronchial biopsy; all were normal. However, his eosinophil count was 1.7x109·L–1. He was treated with inhaled corticosteroids for 3 months and a week's course of prednisolone without benefit. He complained of regular episodes of gastro-oesophageal reflux and a 24-h recording of oesophageal pH showed significant reflux of gastric acid. Treatment with proton pump inhibitors for up to 6 weeks and a Nissen fundoplication did not resolve his cough, although his symptoms of reflux disappeared after surgery.
In 2003, he was referred to the Royal Brompton Hospital because of intractable cough, which prevented him from working. He was producing a small amount of clear sputum. He also complained of diarrhoea and night sweats, and had lost 15 kg in weight in the preceding 2 yrs. He had stopped smoking 15 yrs previously with a 15 pack-yr history. Clinical examination was normal. Blood eosinophil count was 5.0x109·L–1 and immunoglobulin E was 61 IU·mL–1 (normal range 3–150 IU·mL–1); no anti-neutrophil cytoplasmic antibodies were detected. Computed tomography of the lungs showed thickening of intrapulmonary airways with distal airway plugging. Forced expiratory volume in one second, lung volumes and carbon monoxide gas transfer were normal, but he had a sensitive cough response to inhaled capsaicin. Endobronchial biopsy showed goblet cell hyperplasia and eosinophilic stromal inflammation. Bronchoalveolar lavage fluid contained 25% eosinophils. Because of his extensive travels in tropical countries, stool examination and serological investigations were carried out and excluded parasitic infestations. A course of ivermectin had no effect on his cough or eosinophilia. Abdominal computed tomography revealed hepatosplenomegaly with a 16-cm long spleen and a craniocaudal liver span of 19 cm.
Oral prednisolone (40 mg·day–1) was started and, within 2 weeks, the cough and diarrhoea were controlled, but on steroid tapering (a minimum daily dose of 20 mg was needed for symptom control). Blood eosinophilia persisted at 
1x109·L–1.
Because of his persistent hypereosinophilia, he was referred for further haematological investigations. Bone marrow aspirate and trephine biopsy showed increased numbers of eosinophils and loosely clustered mast cells with no increase in blast cells or abnormal lymphoid infiltrate. There was no rearrangement of TCRB or TCRG genes to suggest lymphocyte clonality. Cytogenetic analysis was normal. Single-step RT-PCR for the FIP1L1-PDGFRA fusion gene was negative, but nested PCR was intermittently positive. Fluorescence in situ hybridisation (FISH) analysis showed CHIC2 deletion, suggesting the presence of this fusion gene, in 23% of interphase cells (normal: 
10%) (fig. 1
). The weak positive results with RT-PCR and the low proportion of abnormal cells on FISH analysis led to further molecular investigation, which revealed a breakpoint involving exon 16 of the FIP1L1 gene and exon 12 of PDGFRA gene further downstream than reported previously (fig. 2). The position of this previously undescribed breakpoint probably explains the difficulty in detection of the fusion gene mRNA using standard PCR primers.
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Following demonstration of the FIP1L1-PDGFRA fusion gene 10 months after starting prednisolone therapy, the tyrosine kinase inhibitor imatinib (100 mg·day–1) was commenced, with a rapid disappearance of blood eosinophils. Prednisolone dosage was gradually discontinued after 2 months of imatinib therapy. The patient's cough has not recurred and his diarrhoea has improved since commencing imatinib. No side-effects have been noted and the fusion gene is no longer detectable by specific RT-PCR designed for the breakpoints present in this patient.
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DISCUSSION |
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TOPABSTRACTCASE REPORTDISCUSSIONREFERENCES |
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This patient had evidence of severe gastro-oesophageal reflux but his cough did not respond to treatment with proton pump inhibitors. A Nissen fundoplication that abolished reflux also failed to improve the patient's cough, contrary to what has been previously reported in patients in whom a cough was evidently the result of reflux 7. This therefore excluded the possibility of gastro-oesophageal reflux as underlying his cough.
The association of the persistent hypereosinophilia with the cough was next investigated. There was evidence of eosinophil inflammation in the airways mucosa, but the patient did not have symptoms of asthma and his histamine bronchial responsiveness was not abnormal. The level of hypereosinophilia puts him into the category of idiopathic hypereosinophilic syndrome, but this diagnosis can now only be made after rigorously excluding all other causes of hypereosinophilia. Parasitic infestations, in view of his extensive travels to the tropics, were excluded. It was also unlikely that he represented a case of acute eosinophilic pneumonia, such as has been described in American servicemen serving in Iraq, attributed to exposure to desert sand or explosives 8.
Hypereosinophilic syndrome comprises a range of conditions, but recent developments have led to the identification of two distinct entities, in addition to residual idiopathic cases. First, a lymphocytic variant with hypereosinophilia secondary to a T-cell lymphoproliferative disorder demonstrated by the presence of a circulating clonal T-cells has been described 9, 10. This was excluded in this patient by the lack of rearrangement of the TCRB or TCRG genes. Secondly, a myeloproliferative disorder resulting from an interstitial deletion of the long arm of chromosome 4, leading to formation of a FIP1L1-PDGFRA fusion gene and synthesis of a protein with aberrant tyrosine kinase activity, has been described 6. Since splenomegaly and gastrointestinal and pulmonary symptoms are recognised features of this syndrome, this patient was investigated in this regard and demonstrated the presence of the fusion gene. Other patients with the FIP1L1-PDGFRA syndrome have also shown bone marrow infiltration by cytologically abnormal mast cells 11. Imatinib selectively inhibits ABL, PDGFR and KIT tyrosine kinases. FIP1L1-PDGFRA is particularly sensitive to imatinib and a low initial dose is therefore appropriate. The FIP1L1-PDGFRA syndrome may lead to death, either from end-organ (particularly cardiac) damage or from transformation to acute leukaemia. The striking response to imatinib therapy means that its correct identification and treatment is of critical importance to the patient. When the clinical suspicion is strong, atypical molecular results, as in this patient, are an indication for further investigation until the diagnosis is clarified.
This patient supports the concept that eosinophils may be the cause of cough. The role of eosinophils in the pathogenesis of asthma has been questioned following the recent observation that an anti-interleukin-5 monoclonal antibody had no effect on the late-phase response to allergen and bronchial hyperresponsiveness of asthma 12. However, anti-interleukin-5 therapy did not deplete eosinophils completely in the airways mucosa and, also, other mediators may also be involved in eosinophilic activation. How eosinophils may induce cough requires further studies.
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