Global ETD Search

1	Hypertrophic cardiomyopathy in Northern Sweden : with special emphasis on molecular genetics Mörner, Stellan January 2004 (has links) Hypertrophic cardiomyopathy (HCM) is a heterogeneous, often familial disease, characterized by cardiac hypertrophy, predominantly affecting the interventricular septum. To date, no study has systematically analysed the genetic and phenotypic aspects of the disease in a Swedish population. The aim of this thesis was to identify the genotypes causing HCM in northern Sweden, to characterize the disease phenotypes and correlate these findings. Forty-six patients were recruited for the genetic studies (21 women), 11 familial and 35 sporadic cases. Eight sarcomeric protein genes were screened for mutations. A total of 11 different disease causing mutations were found in four genes. Six of the mutations were previously not described. A novel mutation (a 33 base pair deletion) in the troponin I gene was found in one HCM family. Despite the severe genetic defect, the associated phenotype displayed only mild cardiac hypertrophy and few symptoms. Most mutations (64%) were identified in the myosin binding protein C gene, a gene considered to have a low penetrance. Mutations were identified in 10 of 11 familial HCM cases, but only in three of the 35 sporadic cases. It was found that cardiac amyloidosis can sometimes present itself as HCM. Three HCM patients (7%) carried the ATTR Val30Met mutation, also found in Swedish patients with familial amyloid polyneuropathy (FAP). The patients had no symptoms of polyneuropathy, but cardiac amyloidosis as the cause of hypertrophy was verified by myocardial biopsy in an index case. Amyloid heart disease should therefore be considered as a differential diagnosis in patients with HCM. By studying heart rate variability (HRV), it was found that young patients with HCM had signs of autonomic dysfunction, expressed as a reduced HRV. Treatment with beta-blockade attenuated these effects. Abnormal autonomic function might be a substrate for lethal arrhythmias, most often encountered in younger patients with HCM. The results suggest a possible protective effect of beta-blockade, remaining to be studied further. Ventricular function is frequently abnormal in HCM. In particular, diastolic dysfunction has been demonstrated. The recently described myocardial performance index allows the assessment of cardiac function by combining systolic and diastolic performance. We found that patients with hypertrophic cardiomyopathy had evidence of global and regional right ventricular dysfunction, besides left ventricular dysfunction. Hypertrophic cardiomyopathy is traditionally considered to be a disease of the left ventricle. The results show that hypertrophic cardiomyopathy should more be regarded as a biventricular disease. In conclusion, the myosin binding protein C gene is the most common gene causing familial HCM in northern Sweden. This disease gene is considered to be associated with a mild, late-onset disease with ≈50% penetrance at 30 years of age. The low disease penetrance emphasizes the importance of adequate family screening when evaluating patients with HCM, since the familial nature of the disease might easily be overlooked. These particular disease features in northern Sweden contrast to most previous reports, which indicate another disease gene as the most frequent in HCM, associated with a much higher penetrance. Amyloid heart disease, requiring different treatment than HCM, should be kept in mind as a differential diagnosis in the management of patients with HCM. Key words: Hypertrophic cardiomyopathy, genetics, autonomic nervous system, familial amyloid polyneuropathy, echocardiography. Hypertrophic cardiomyopathy genetics autonomic nervous system familial amyloid polyneuropathy echocardiography
2	Inhibition of TTR aggregation-induced cell death : a new role for serum amyloid P component Andersson, Karin, Pokrzywa, M, Dacklin, Ingrid, Lundgren, Erik January 2013 (has links) BACKGROUND: Serum amyloid P component (SAP) is a glycoprotein that is universally found associated with different types of amyloid deposits. It has been suggested that it stabilizes amyloid fibrils and therefore protects them from proteolytic degradation. METHODOLOGY/PRINCIPAL FINDINGS: In this paper, we show that SAP binds not only to mature amyloid fibrils but also to early aggregates of amyloidogenic mutants of the plasma protein transthyretin (TTR). It does not inhibit fibril formation of TTR mutants, which spontaneously form amyloid in vitro at physiological pH. We found that SAP prevents cell death induced by mutant TTR, while several other molecules that are also known to decorate amyloid fibrils do not have such effect. Using a Drosophila model for TTR-associated amyloidosis, we found a new role for SAP as a protective factor in inhibition of TTR-induced toxicity. Overexpression of mutated TTR leads to a neurological phenotype with changes in wing posture. SAP-transgenic flies were crossed with mutated TTR-expressing flies and the results clearly confirmed a protective effect of SAP on TTR-induced phenotype, with an almost complete reduction in abnormal wing posture. Furthermore, we found in vivo that binding of SAP to mutated TTR counteracts the otherwise detrimental effects of aggregation of amyloidogenic TTR on retinal structure. CONCLUSIONS/SIGNIFICANCE: Together, these two approaches firmly establish the protective effect of SAP on TTR-induced cell death and degenerative phenotypes, and suggest a novel role for SAP through which the toxicity of early amyloidogenic aggregates is attenuated. / <p>Epub 2013 Feb 4.</p> Serum amyloid P component transthyretin familial amyloid polyneuropathy cell death neuroblastoma drosophila
3	Inhibition of Transthyretin Fibrillogenesis Using a Conformation Specific Antibody Bugyei-Twum, Antoinette 21 March 2012 (has links) Immunoglobulin-mediated inhibition of amyloid fibril formation in vivo is a promising strategy for the treatment of protein misfolding diseases such as the amyloidoses. Here we focus on transthyretin amyloidoses, a group of protein conformation diseases caused by the misfolding of the serum protein transthyretin into fibrillar structures that deposit in specific organs and tissues—often with serious pathological consequences. Using a structure-guided immunological approach, we report a novel antibody that selectively recognizes monomeric, misfolded conformations of transthyretin in vitro. Raised to an epitope normally buried in the native form of transthyretin, this antibody was found to suppress transthyretin fibrillogenesis at substoichiometric concentrations in vitro. Overall, the selectivity and inhibitory nature of the antibody signals the potential use of conformation specific antibodies in the diagnosis and treatment of transthyretin amyloidoses, conditions which remain difficult to treat and are widely under/misdiagnosed at the current time. Transthyretin Senile Systemic Amyloidosis Familial Amyloid Polyneuropathy Familal Amyloid Cardiomyopathy Antibody Design 0487
4	Inhibition of Transthyretin Fibrillogenesis Using a Conformation Specific Antibody Bugyei-Twum, Antoinette 21 March 2012 (has links) Immunoglobulin-mediated inhibition of amyloid fibril formation in vivo is a promising strategy for the treatment of protein misfolding diseases such as the amyloidoses. Here we focus on transthyretin amyloidoses, a group of protein conformation diseases caused by the misfolding of the serum protein transthyretin into fibrillar structures that deposit in specific organs and tissues—often with serious pathological consequences. Using a structure-guided immunological approach, we report a novel antibody that selectively recognizes monomeric, misfolded conformations of transthyretin in vitro. Raised to an epitope normally buried in the native form of transthyretin, this antibody was found to suppress transthyretin fibrillogenesis at substoichiometric concentrations in vitro. Overall, the selectivity and inhibitory nature of the antibody signals the potential use of conformation specific antibodies in the diagnosis and treatment of transthyretin amyloidoses, conditions which remain difficult to treat and are widely under/misdiagnosed at the current time. Transthyretin Senile Systemic Amyloidosis Familial Amyloid Polyneuropathy Familal Amyloid Cardiomyopathy Antibody Design 0487
5	Hereditary transthyretin amyloidosis (ATTR V30M) : from genes to genealogy / Ärftlig transtyretinamyloidos (Skelleftesjukan) : från arvsanlag till släktträd Norgren, Nina January 2014 (has links) Background: Hereditary transthyretin amyloidosis is an autosomal dominant disease with a reduced penetrance. The most common mutation in Sweden is the V30M mutation in the transthyretin gene. Clustering areas of the disease can be found in Northern Sweden, Portugal, Brazil and Japan, although sporadic cases exist worldwide. Despite being caused by the same mutation, there are large differences in onset, penetrance and symptoms of the disease. Swedish V30M patients typically have a later onset with a lower penetrance compared to those from the clustering Portuguese V30M areas. The reasons for these differences have not been fully understood. The aim of this thesis is to study mechanisms that may influence onset and symptoms and investigate why patients carrying the same mutation have different phenotypes. Methods: Genealogy studies were performed on all known V30M carriers in Sweden using standard genealogy methods. DNA samples from patients, asymptomatic carriers and controls from different countries were collected and the transthyretin gene was sequenced. Liver biopsies from patients were used for allele specific expression analysis and a cell assay was used for miRNA analysis with the mutated allele. Gene expression analysis was performed on biopsies from liver and fat from patients and controls. Results and conclusions: Genealogic analysis of all known Swedish V30M carriers managed to link together 73% of the Swedish ATTR V30M population to six different ancestors from the 17th and 18th century, thus dating the Swedish V30M mutation to be more than 400 years old. A founder effect was also visible in descendants to one of the ancestors, producing a later age at onset. Sequencing of the transthyretin gene revealed a SNP in the 3’ UTR of all Swedish V30M carriers that was not found in any of the Japanese or French V30M carriers. The SNP was present on the Swedish transthyretin haplotype and defined the Swedish V30M population as separate from others. However, the SNP itself had no effect upon phenotype or onset of disease. Gene expression analysis of liver and fat tissue revealed a change in genetic profile of the patients’ livers, in contrast to the unchanged profile of the fat tissue. A changed genetic profile of the liver could explain why domino liver recipients develop the disease much earlier than expected. Hereditary transthyretin amyloidosis Familial amyloid polyneuropathy transthyretin genealogy founder effect miRNA allele-specific expression gene expression liver
6	Développement d'une méthode de séparation électrocinétique de biomarqueurs de la polyneuropathie amyloïde familiale à transthyrétine : vers une miniaturisation de l'analyse / Development of an electrokinetic separation method of biomarkers of transthyretin familial amyloid polyneuropathy : towards a miniaturization of the analysis Korchane, Sonia 19 May 2014 (has links) Ces travaux de recherche s’intéressent à la conception de nouvelles méthodologies analytiques destinées à mesurer le bénéfice d’une transplantation hépatique ou bien encore à l’évaluation de nouvelles voies thérapeutiques à l’essai pour des patients atteints de la polyneuropathie amyloïde familiale à transthyrétine (TTR). Cette maladie rare se caractérise par une déstabilisation structurale du tétramère de TTR qui aboutit à l’agrégation de fibrille dans les tissus du système nerveux autonome, au niveau des nerfs périphériques et autour de certains organes dont le cœur. Dans le cadre d’une collaboration entre hospitalo-universitaires, chimistes analystes, électrochimistes, physico-chimistes et technologues, nous nous sommes attachés à développer des séparations en électrophorèse capillaire couplée avec une détection optique de peptides natif et muté qui sont directement associés à une variente de cette maladie rare. La difficulté première de cette recherche concerne le choix même de ces biomarqueurs qui s’est finalement révélé pertinent grâce de la réalisation de cartes peptidiques à partir du sérum. Ensuite deux voies ont été explorées : une séparation électrocinétique avec une détection spectrométrique d’absorbance dans l’ultra-violet et l’autre nécessitant le marquage préalable de peptides par des molécules fluorophores ou fluorogènes pour ensuite faire une séparation en électrophorèse couplée LIF (laser induced fluorescence). Dans les deux cas le critère principal de séparation, la résolution, autorise une quantification et surtout les validations analytiques associées montrent une réelle robustesse des méthodologies développées. L’autre signe encourageant pour la transposition des ces méthodes à l’analyse de prélèvements issus de patients, concerne la limite de quantification qui est inférieure à celle couramment mesuré dans le sérum. La spectrométrie de masse, moyen d’investigation physico-chimique puissant à permis de suivre et de comprendre d’un point vue plus fondamental le produit des réactions de chimie organique de dérivation des peptides par trois marqueurs fluorescents : le TAMRA-SE, le NDA et le FQ. La possibilité de proposer un outil d’analyse miniaturisé et simple d’utilisation pour le monde hospitalier a également été étudiée. Un poste d’analyse sur puce microfluidique permettant l’analyse quantitative et qualitative a été installé pour permettre la réalisation de premiers essais expérimentaux de séparations électrocinétiques sur puce microfluidique. Ces travaux jettent les bases d’une nouvelle voie analytique pour séparer et quantifier les différents biomarqueurs caractéristiques de la polyneuropathie amyloïde familliale à TTR. / The purpose of our work was the development of new analytical methodologies to measure the benefit of liver transplantation and also the evaluation of new therapeutic approaches under testing on patients with Transtyretin (TTR) familial amyloid polyneuropathy. This rare disease is characterized by a structural destabilization of TTR tetramer leading to it’s aggregation into amyloïd fibrils that accumulate in the tissues of the autonomous nervous system, peripheral nerves and around certain organs, including the heart. As part of a collaboration between university, hospital, analytical chemists, electrochemist, physical chemists and technologists, we are committed to develop separations in capillary electrophoresis coupled with optical detection of native and mutated peptides that are directly associated with a variant of this rare disease. The first challenge of this research is the choice of these biomarkers that ultimately proved relevant with the realization of peptide maps from the serum. Then two approaches have been explored: electrokinetic separation with absorbance spectrometric detection in the ultraviolet and the other requiring the prior labeling peptides with fluorescent molecules and then to a separation on electrophoresis coupled with LIF (Laser induced fluorescence). In both cases the main criterion of separation, resolution, allows quantification and especially analytical validations show actual strength associated methodologies developed. Another encouraging sign for the transposition of these methods to the analysis of samples from patients regarding the quantification limit is lower than commonly measured in serum. Mass spectrometry, using physico-chemical investigation powerful allowed to follow and understand a more fundamental viewpoint the product of organic chemistry reactions bypass peptides by three fluorescent dyes: TAMRA-SE, the NDA and FQ. The ability to provide a miniaturized analysis and easy to use tool for the hospital environment was also studied. A post analysis on microfluidic chip for quantitative and qualitative analysis was installed to allow the realization of the first experimental tests of electrokinetic separations on microfluidic chip. These studies lay the foundation for a new analytical way to separate and quantify the different characteristics biomarkers family TTR amyloid polyneuropathy. Electrophorèse capillaire Polyneuropathie amyloïde familiale Marquage fluorescent Analyse de protéines Séparations électrocinétiques Capillary electrophoresis Familial amyloid polyneuropathy Fluorescent labelling Protein analysis Electrokinetic separations
7	A Drosophila Disease-Model for Transthyretin-associated Amyloidosis Pokrzywa, Malgorzata January 2008 (has links) Amyloidoses comprise a group of gain-of-toxic function protein misfolding diseases, in which normally soluble proteins in their functional state undergo conformational changes into highly organized and generally intractable thread-like aggregates, termed amyloid fibrils. These structures accumulate predominantly in the extracellular space but growing evidence suggests that amyloids may start to form intracellularly. At least 26 different human proteins, intact or in fragmented form, are known to form amyloid, which is linked with many debilitating neurodegenerative diseases such as Alzheimer’s disease (AD), Creutzfeldt-Jakob disease, and transthyretin (TTR)-related amyloidosis (ATTR). In this work, we focus on ATTR, which is one of the most frequent systemic amyloid diseases. A functional link was established between hereditary ATTR, a severe and fatal disorder and the enhanced propensity of the human plasma protein transthyretin (TTR) to form aggregates, caused by single point mutations in the TTR gene. The disease is heterogeneous and clinical symptoms vary from cardiomyopathy to progressing sensorimotor polyneuropathy depending on TTR variant involved and the amyloid deposition site. Despite the fact that TTR-derived amyloid accumulates in different organs such as heart, kidney, eyes, and predominantly in the peripheral nerves of ATTR patients, the exact mechanism of the disease development is not understood. In contrast to the case of AD, it has been difficult to generate an animal model for ATTR in transgenic mice that would be useful in understanding TTR aggregation processes and the mechanisms of the associated toxicity as these mice did not develop any neuropathic phenotype besides amyloid deposits. Therefore, we created a disease-model in Drosophila due to its huge repertoire of genetic techniques and easy genotype – phenotype translation, as well as its success in modeling human neurodegeneration. We have generated transgenic flies that over-express the clinical amyloidogenic variant TTRL55P, the engineered variant TTR-A (TTRV14N ⁄ V16E), and the wild-type protein. All TTR variants were found in the secreted form in the hemolymph where misfolding occurred and depending on the pool of toxic species, the fate of the fly was decided. Within a few weeks, both mutants (but not the wild-type TTR) demonstrated a time-dependent aggregation of misfolded molecules in vivo. This was associated with neurodegeneration, change in wing posture, attenuation of locomotor activity including compromised flying ability, and shortened life span. In contrast, expression of the wild-type TTR had no discernible effect on either longevity or fly behavior. In this work, we also addressed the correlation between TTR transgene dosage and thus, protein levels, with the severity of the phenotypes observed in TTR-A flies which developed a “dragged wing” phenotype. Remarkably, we established that degenerative changes such as damage to the retina strictly correlated with increased levels of mutated TTR but inversely with behavioral alterations and the dragged wing phenotype. We characterized formation of aggregates in the form of 20 nm spherules and amyloid filaments intracellularly in the thoracic adipose tissue and brain glia (both tissues that do not express the transgene). Moreover, we detected a fraction of neurotoxic TTR-A in the hemolymph of young but not old flies. We proposed that these animals counteract formation and persistence of toxic TTR-A species by removal from the circulation into intracellular compartments of glial and fat body cells and this is part of a mechanism that neutralizes the toxic effects of TTR. We validated the fly model for ATTR by applying a genetic screen during study of modifier genes. We found Serum amyloid P component (a product of the APCS gene) as a potent modifier of TTR amyloid-induced toxicity that was effective in preventing the apoptotic response in cell culture assay and capable of reducing the dragged wings when co-expressed in TTR-A flies. Finally, we optimized this fly model in order to screen for therapeutic compounds effective against ATTR. Feeding assays showed the effectiveness of several compounds among known native-state kinetic stabilizers of TTR against its aggregation. We described several early endpoints in this model, which can be used as a rapid and cost-effective method for optimizing concentrations and pre-screening of drug candidates. As the proof of principle, by feeding flies with increasing doses of diflunisal analogue (an FDA-approved Non-Steroidal Anti-Inflammatory Drug) a dose-dependent reduction of the dragged wings was observed. transthyretin amyloid amyloidosis Drosophila transthyretin-associated amyloidosis Familial amyloid polyneuropathy neurodegeneration serum amyloid P component Non-steroidal Anti-Inflammatory Drugs drug screens Molecular biology Molekylärbiologi
8	Familial amyloidosis with polyneuropathy : studies of genetic factors modifying the phenotype of the disease / Familjär amyloidos med polyneuropati : studier av genetiska faktorer som modifierar sjukdomsfeneotypen Olsson, Malin January 2010 (has links) Background. Familial Amyloidosis with Polyneuropathy (FAP) is an autosomal dominantly inherited systemic amyloid disease. The disease is caused by mutations in the transthyretin (TTR) gene, where close to 100 different amyloidogenic mutations have been identified. FAP is found worldwide, but endemic areas with a high frequency of patients are found in Portugal, Japan and northern Sweden. Cases from these endemic areas all share the same TTR c.148G>A, p.V50M ("V30M") mutation, but the phenotype of the disease varies between the areas, and also within the endemic areas. The mean onset of the disease is two decades earlier in Portugal and Japan compared to Sweden, but late as well as early age at onset cases occur within all the populations. Interestingly, the different populations all display a maternal anticipation, where an earlier onset is observed for those individuals who inherit the trait from their mother. Since substantial variation in the phenotype is observed for different populations, epigenetic/genetic and/or environmental factors must exert a significant impact on the penetrance of the disease. Amyloid formation is caused by conformational changes of proteins, which facilitates their assembly into fibrils, amyloid. Oxidative stress can mediate conformational changes of proteins and since the mitochondria regulate oxidative processes within the cell, mitochondrial function may affect amyloid formation. The mitochondrial DNA is a non-nuclear DNA, which is entirely maternally inherited, and therefore could be related to the observed maternal anticipation of the disease. In addition, differences within the surrounding regions of the TTR gene may have an impact on the transcription of the gene and thereby on the expression of the different alleles. Material and methods. DNA from early and late onset V30M cases and from non-carriers (the latter utilised as controls) from Swedish, French, Japanese and Portuguese populations were analysed. In addition, DNA from healthy Swedish V30M carriers was analysed. Conventional analytical methods were employed, such as PCR, sequencing and genotyping. Conventional statistical methods used were t-test, Chi-squared test and maximum likelihood. Results. The study of V30M carrier frequency in two counties (Lycksele and Skellefteå) within the Swedish endemic area revealed a carrier frequency of 2.14% and 2.54%, respectively. The mitochondrial haplogroup analysis showed that in populations with generally late onset (French and Swedish), the haplogroup distribution of late onset cases resembled that of the controls derived from the same area, whereas haplogroup distribution for early onset patients was significantly different. The most pronounced difference was for the rare haplogroup K, of which early onset cases had a higher frequency than the controls. Analysis of the Portuguese population, with predominantly early onset, showed that haplogroup distribution for early onset cases were similar to the Portuguese control group, which had a different distribution than the Swedish control group. By analysis of pedigrees from Swedish and Portuguese patients it could be shown that mitochondrial genetic variation entirely could explain maternal anticipation in the Portuguese patients, whereas for Swedish patients, an additional parent of origin effect is present. Our analysis of the TTR gene disclosed a polymorphism (rs62093482) in the 3'UTR region of the Swedish patients. This polymorphism was found in all V30M carriers, irrespective of symptoms. In addition, homozygous TTR V30M carriers were homozygous also for the polymorphism. Since Swedish patients share a common founder this polymorphism thus is localised on the V30M allele. This polymorphism was found in only 4% of the Swedish controls. French controls showed the same frequency, but none of the French V30M patients displayed the polymorphism. In the Japanese population the polymorphism was not present at all. Interestingly, this polymorphism generates a potential binding site for microRNA and thereby possibly could down-regulate the expression of the mutated TTR allele. Conclusions. The carrier frequency in the endemic area is remarkably high, above 2% in the Lycksele and Skellefteå areas. The prevailing haplogroup distributions in the different endemic areas are consistent between the general population and the patient group with the predominant phenotype of that area. Mitochondrial genetic differences may explain maternal anticipation in Portuguese patients, and have an influence in Swedish patients. A polymorphism in the 3'UTR regulatory region of the mutated TTR allele is found in all Swedish patients. This polymorphism may down-regulate TTR V30M expression and thereby contribute to the late onset of the disease noted in the Swedish population. Mitochondria parent-of-origin MicroRNA Single Nucleotide Polymorphism 3' Untranslated Regions/genetics Medical genetics Medicinsk genetik Clinical genetics Klinisk genetik
9	Gastrointestinal disturbances in hereditary transthyretin amyloidosis / Mag-tarmstörningar vid ärftlig transthyretinamyloidos Wixner, Jonas January 2014 (has links) Background Transthyretin amyloid (ATTR) amyloidosis is a systemic disorder caused by amyloid deposits formed by misfolded transthyretin (TTR) monomers. Two main forms exist – wild-type and hereditary ATTR amyloidosis, the latter associated with TTR gene mutations. Wild-type ATTR amyloidosis has a late onset and primarily cardiac manifestations, whereas hereditary ATTR amyloidosis is a rare autosomal dominant condition with a considerable phenotypic diversity. Both disorders are present all over the world, but endemic areas of the hereditary form are found in Sweden, Portugal, Brazil and Japan. Gastrointestinal (GI) complications are common in hereditary ATTR amyloidosis and play an important role in the patients’ morbidity and mortality. Malfunction of the autonomic and enteric nervous systems has been proposed to contribute to the GI disturbances, but the underlying mechanisms have not been fully elucidated. The aims of this thesis were to assess the prevalence of GI disturbances for different subtypes of ATTR amyloidosis, to further explore the mechanisms behind these disturbances, and to evaluate the outcome of the patients’ GI function after liver transplantation, which currently is the standard treatment for hereditary ATTR amyloidosis. Methods The Transthyretin Amyloidosis Outcomes Survey (THAOS) is the first global, multicenter, longitudinal, observational survey that collects data on patients with ATTR amyloidosis. THAOS enrollment data were used to assess the prevalence of GI symptoms and to evaluate their impact on nutritional status (mBMI) and health-related quality of life (EQ-5D Index Score). Data from routine investigations of heart-rate variability and cardio-vascular response to tilt tests were utilized to evaluate the impact of autonomic neuropathy on the scintigraphically measured gastric emptying half-times in Swedish patients with hereditary ATTR amyloidosis. Gastric wall autopsy specimens from Japanese patients with hereditary ATTR amyloidosis and Japanese non-amyloidosis controls were analyzed with immunohistochemistry and computerized image analysis to assess the densities of interstitial cells of Cajal (ICC) and nervous tissue. Data from gastric emptying scintigraphies and validated questionnaires were used to evaluate the outcome of Swedish patients’ GI function after liver transplantation for hereditary ATTR amyloidosis. Results Sixty-three percent of the patients with TTR mutations and 15 % of those with wild-type ATTR amyloidosis reported GI symptoms at enrollment into THAOS. Subsequent analyses focused on patients with TTR mutations and, among them, unintentional weight loss was the most frequent symptom (32 %) followed by early satiety (26 %). Early-onset patients (<50 years of age) reported GI symptoms more frequently than late-onset cases (70 % vs. 50 %, p <0.01), and GI symptoms were more common in patients with the V30M mutation than in those with non-V30M mutations (69 % vs. 56 %, p <0.01). Both upper and lower GI symptoms were significant negative predictors of nutritional status and health-related quality of life (p <0.01 for both). Weak but significant correlations were found between gastric emptying half-times and the function of both the sympathetic (rs = -0.4, p <0.01) and parasympathetic (rs = -0.3, p <0.01) nervous systems. The densities of c-Kit-immunoreactive ICC were significantly lower in the circular (median density 0.0 vs. 2.6, p <0.01) and longitudinal (median density 0.0 vs. 1.8, p <0.01) muscle layers of the gastric wall in patients compared to controls. Yet, no significant differences in protein gene product 9.5-immunoreactive nervous cells were found between patients and controls either in the circular (median density 3.0 vs. 6.8, p = 0.17) or longitudinal (median density 1.4 vs. 2.5, p = 0.10) muscle layers. Lastly, the patients’ GI symptoms scores had increased slightly from before liver transplantation to the follow-ups performed in median two and nine years after transplantation (median score 7 vs. 10 vs. 13, p <0.01). However, their gastric emptying half-times (median half-time 137 vs. 132 vs. 125 min, p = 0.52) and nutritional statuses (median mBMI 975 vs. 991 vs. 973, p = 0.75) were maintained at follow-ups in median two and five years after transplantation. Conclusion GI disturbances are common in hereditary ATTR amyloidosis and have a negative impact on the patients’ nutritional status and health-related quality of life. Fortunately, a liver transplantation appears to halt the progressive GI involvement of the disease, although the patients’ GI symptoms tend to increase after transplantation. An autonomic neuropathy and a depletion of gastrointestinal ICC seem to contribute to the GI disturbances, but additional factors must be involved. Autonomic Nervous Systems Cajal Interstitial Cells Enteric Nervous System Familial Amyloid Polyneuropathy Functional Gastrointestinal Disorders Gastric Emptying Liver Transplantation Nutrition Status Transthyretin Amyloidosis

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