Karin M. Kazemier
Utrecht University
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Featured researches published by Karin M. Kazemier.
Immunogenetics | 2012
Nicoline M. Korthagen; Coline H.M. van Moorsel; Karin M. Kazemier; H. J. T. Ruven; Jan C. Grutters
Idiopathic pulmonary fibrosis (IPF) is a rare and devastating lung disease of unknown aetiology. Genetic variations in the IL1RN gene, encoding the interleukin-1 receptor antagonist (IL-1Ra), have been associated with IPF susceptibility. Several studies investigated the variable number tandem repeat (VNTR) or single nucleotide polymorphisms rs408392, rs419598 and rs2637988, with variable results. The aim of this study was to elucidate the influence of polymorphisms in IL1RN on IPF susceptibility and mRNA expression. We performed a meta-analysis of the five case–control studies that investigated an IL1RN polymorphism in IPF in a Caucasian population. In addition, we investigated whether IL1RN mRNA expression was influenced by IL1RN polymorphisms. The VNTR, rs408392 and rs419598 were in tight linkage disequilibrium, with D′ > 0.99. Furthermore, rs2637988 was in linkage disequilibrium with the VNTR (D′ = 0.90). A haploblock of VNTR*2 and the minor alleles of rs408392and rs419598 was constructed. Meta-analysis revealed that this VNTR*2 haploblock is associated with IPF susceptibility both with an allelic model (odds ratio = 1.42, p = 0.002) and a carriership model (odds ratio = 1.60, p = 0.002). IL1RN mRNA expression was significantly influenced by rs2637988, with lower levels found in carriers of the (minor) GG genotype (p < 0.001). From this meta-analysis, we conclude that the VNTR*2 haploblock is associated with susceptibility to IPF. In addition, polymorphisms in IL1RN influence IL-1Ra mRNA expression, suggesting that lower levels of IL-1Ra predispose to developing IPF. Together these findings demonstrate that the cytokine IL-1Ra plays a role in IPF pathogenesis.
PLOS ONE | 2012
Nicoline M. Korthagen; Coline H.M. van Moorsel; Nicole P. Barlo; Karin M. Kazemier; H. J. T. Ruven; Jan C. Grutters
Idiopathic pulmonary fibrosis (IPF) is a devastating and progressive lung disease. Its aetiology is thought to involve damage to the epithelium and abnormal repair. Alveolar epithelial cells near areas of remodelling show an increased expression of proapoptotic molecules. Therefore, we investigated the role of genes involved in cell cycle control in IPF. Genotypes for five single nucleotide polymorphisms (SNPs) in the tumour protein 53 (TP53) gene and four SNPs in cyclin-dependent kinase inhibitor 1A (CDKN1A), the gene encoding p21, were determined in 77 IPF patients and 353 controls. In peripheral blood mononuclear cells (PBMC) from 16 healthy controls mRNA expression of TP53 and CDKN1A was determined. Rs12951053 and rs12602273, in TP53, were significantly associated with survival in IPF patients. Carriers of a minor allele had a 4-year survival of 22% versus 57% in the non-carrier group (p = 0.006). Rs2395655 and rs733590, in CDKN1A, were associated with an increased risk of developing IPF. In addition, the rs2395655 G allele correlated with progression of the disease as it increased the risk of a rapid decline in lung function. Functional experiments showed that rs733590 correlated significantly with CDKN1A mRNA expression levels in healthy controls. This is the first study to show that genetic variations in the cell cycle genes encoding p53 and p21 are associated with IPF disease development and progression. These findings support the idea that cell cycle control plays a role in the pathology of IPF. Variations in TP53 and CDKN1A can impair the response to cell damage and increase the loss of alveolar epithelial cells.
Clinical and Experimental Immunology | 2010
Nicoline M. Korthagen; M. M. Nagtegaal; C.H.M. van Moorsel; Karin M. Kazemier; J. M. M. Van Den Bosch; Jan C. Grutters
Pulmonary fibrosis is defined by an overgrowth of fibroblasts and extracellular matrix deposition, and results in respiratory dysfunction that is often fatal. It is the end stage in many chronic inflammatory interstitial lung diseases (ILD) such as sarcoidosis and idiopathic pulmonary fibrosis (IPF). The myeloid‐related proteins (MRPs) belong to the S100 family of calcium‐binding proteins and are highly expressed by neutrophils, macrophages and epithelial cells during chronic inflammation. MRP14 stimulates fibroblast proliferation in vitro and is expressed in granulomas from sarcoidosis patients. We hypothesized that MRP14 may be a biomarker for fibrotic interstitial lung diseases. The objective of this study was to investigate whether levels of MRP14 in the bronchoalveolar lavage fluid (BALF) of patients with sarcoidosis and IPF correlate with clinical parameters. We used an enzyme‐linked immunosorbent assay (ELISA) to measure MRP14 in BALF of 74 sarcoidosis patients, 54 IPF patients and 19 controls. Mean BALF levels of MRP14 were elevated significantly in IPF (P < 0·001) and sarcoidosis (P < 0·05) patients compared to controls. MRP14 levels were associated linearly with sarcoidosis disease severity based on chest radiographic stage. Moreover, BALF MRP14 levels were correlated inversely with diffusion capacity and forced vital capacity in sarcoidosis patients. In IPF patients, a correlation with BALF neutrophil percentage was found. In conclusion, BALF MRP14 levels are elevated in IPF and sarcoidosis and are associated with disease severity in sarcoidosis. The results support the need for further studies into the role of MRP14 in the pathogenesis of lung fibrosis.
Chest | 2015
Reinier Snetselaar; Coline H.M. van Moorsel; Karin M. Kazemier; Joanne J. van der Vis; Pieter Zanen; Matthijs F.M. van Oosterhout; Jan C. Grutters
BACKGROUND Interstitial lung disease (ILD) is a heterogeneous group of rare diseases that primarily affect the pulmonary interstitium. Studies have implicated a role for telomere length (TL) maintenance in ILD, particularly in idiopathic interstitial pneumonia (IIP). Here, we measure TL in a wide spectrum of sporadic and familial cohorts of ILD and compare TL between patient cohorts and control subjects. METHODS A multiplex quantitative polymerase chain reaction method was used to measure TL in 173 healthy subjects and 359 patients with various ILDs, including familial interstitial pneumonia (FIP). The FIP cohort was divided into patients carrying TERT mutations, patients carrying SFTPA2 or SFTPC mutations, and patients without a proven mutation (FIP-no mutation). RESULTS TL in all cases of ILD was significantly shorter compared with those of control subjects (P range: .038 to < .0001). Furthermore, TL in patients with idiopathic pulmonary fibrosis (IPF) was significantly shorter than in patients with other IIPs (P = .002) and in patients with sarcoidosis (P < .0001). Within the FIP cohort, patients in the FIP-telomerase reverse transcriptase (TERT) group had the shortest telomeres (P < .0001), and those in the FIP-no mutation group had TL comparable to that of patients with IPF (P = .049). Remarkably, TL of patients with FIP-surfactant protein (SFTP) was significantly longer than in patients with IPF, but similar to that observed in patients with other sporadic IIPs. CONCLUSIONS The results show telomere shortening across all ILD diagnoses. The difference in TL between the FIP-TERT and FIP-SFTP groups indicates the distinction between acquired and innate telomere shortening. Short TL in the IPF and FIP-no mutation groups is indicative of an innate telomere-biology defect, while a stress-induced, acquired telomere shortening might be the underlying process for the other ILD diagnoses.
Clinical Immunology | 2009
M. Heron; Jan C. Grutters; C.H.M. van Moorsel; H. J. T. Ruven; Karin M. Kazemier; Anke M.E. Claessen; J. M. M. Van Den Bosch
The integrin alpha(E)beta(7) is believed to play a key role in retention of lymphocytes in mucosal tissues of gut, urogenital tract and lung. Five common single nucleotide polymorphisms spanning ITGAE, the gene encoding the alpha(E) (CD103) unit, were genotyped in 556 sarcoidosis patients and 465 controls. The -1088 A/G polymorphism was associated with sarcoidosis (P=0.004). An increased risk of disease was found for homozygous carriers of the A allele vs. carriers of the G allele (P=0.001, odds ratio=1.63 [1.22-2.17]). Analysis of lymphocytes from bronchoalveolar lavage and in vitro functional tests showed higher percentages of CD103+CD4+ T cells for the sarcoidosis risk genotype. Radiographic staging at disease outcome revealed prevalence of -1088 AA genotype in patients with fibrosis (P=0.01). A higher proportion of CD103+CD4+ T cells and ITGAE -1088 AA genotype might be associated with fibrosis formation in pulmonary sarcoidosis.
PLOS ONE | 2017
Reinier Snetselaar; Aernoud A. van Batenburg; Matthijs F.M. van Oosterhout; Karin M. Kazemier; Suzan M. Roothaan; Ton Peeters; Joanne J. van der Vis; Roel Goldschmeding; Jan C. Grutters; Coline H.M. van Moorsel
Telomere maintenance dysfunction has been implicated in the pathogenesis of Idiopathic Pulmonary Fibrosis (IPF). However, the mechanism of how telomere length is related to fibrosis in the lungs is unknown. Surgical lung biopsies of IPF patients typically show a heterogeneous pattern of non-fibrotic and fibrotic areas. Therefore, telomere length (TL) in both lung areas of patients with IPF and familial interstitial pneumonia was compared, specifically in alveolar type 2 (AT2) cells. Fluorescent in situ hybridization was used to determine TL in non-fibrotic and fibrotic areas of 35 subjects. Monochrome multiplex quantitative polymerase chain reaction (MMqPCR) was used for 51 whole lung biopsies and blood TL measurements. For sporadic IPF subjects, AT2 cell TL in non-fibrotic areas was 56% longer than in fibrotic areas. No such difference was observed in the surrounding lung cells. In subjects carrying a telomerase reverse transcriptase (TERT) mutation, AT2 cell TL was significantly shorter than in sporadic subjects. However, no difference in surrounding cell TL was observed between these subject groups. Finally, using biopsy MMqPCR TL measurements, it was determined that IPF subjects with shortest lung TL had a significantly worse survival than patients with long TL. This study shows that shortening of telomeres critically affects AT2 cells in fibrotic areas, implying TL as a cause of fibrogenesis. Furthermore, short lung telomere length is associated with decreased survival.
Respirology | 2016
Joanne J. van der Vis; Reinier Snetselaar; Karin M. Kazemier; Liesbeth ten Klooster; Jan C. Grutters; Coline H.M. van Moorsel
A common polymorphism in the MUC5B gene (rs35705950) is associated with susceptibility to idiopathic pulmonary fibrosis (IPF) and familial interstitial pneumonia (FIP). We investigated predisposition of the MUC5B polymorphism to fibrotic interstitial pneumonias in Dutch Caucasian patient cohorts. Furthermore, we investigated the correlation between MUC5B genotype and survival in these cohorts.
Journal of Histochemistry and Cytochemistry | 2018
Aernoud A. van Batenburg; Karin M. Kazemier; Ton Peeters; Matthijs F.M. van Oosterhout; Joanne J. van der Vis; Jan C. Grutters; Roel Goldschmeding; Coline H.M. van Moorsel
Telomeres are small repetitive DNA sequences at the ends of chromosomes which act as a buffer in age-dependent DNA shortening. Insufficient telomere repeats will be recognized as double-strand breaks. Presently, it is becoming more evident that telomere attrition, whether or not caused by mutations in telomere maintenance genes, plays an important role in many inflammatory and age-associated diseases. In this report, a method to (semi)quantitatively assess telomere length and DNA double-strand breaks in formalin-fixed paraffin-embedded (FFPE) tissue is described. Therefore, a novel combination of quantitative fluorescence in situ hybridization, tissue elution, and immunofluorescence staining techniques was developed. Caveolin-1 (type 1 pneumocytes), pro-surfactant protein C (type 2 pneumocytes), club cell-10 (club cells), and alpha smooth muscle actin (smooth muscle cells) markers were used to identify cell types. To visualize all the different probes, restaining the tissue by heat-mediated slide elution is essential. Fluorescent signals of telomeres and DNA double-strand breaks were quantified using the Telometer plugin of ImageJ. As example, we analyzed lung tissue from a familial pulmonary fibrosis patient with a mutation in the telomere-associated gene poly(A)-specific ribonuclease (PARN). The protocol displays a novel opportunity to directly quantitatively link DNA double-strand breaks to telomere length in specific FFPE cells.
Fibrogenesis & Tissue Repair | 2011
Elisabeth A. Kastelijn; Coline H.M. van Moorsel; Karin M. Kazemier; Suzan M. Roothaan; H. J. T. Ruven; Johanna M. Kwakkel-van Erp; Ed A. van de Graaf; Pieter Zanen; Diana A. van Kessel; Jan C. Grutters
American Journal of Respiratory Cell and Molecular Biology | 2010
Nicole P. Barlo; Coline H.M. van Moorsel; Karin M. Kazemier; Jules M.M. van den Bosch; Jan C. Grutters