Estudo do potencial miogênico das células tronco mesenquimais e embrionárias no modelo murino da Distrofia Muscular de Duchenne / Study of therapeutic potencial of of mesenchymal and embryonary stem cells in Duchenne Muscular Dystrophy murine model

Pinheiro, Danielle Ayub de Barros Guerrieri

17 April 2008

Neste trabalho verificou-se o potencial terapêutico de células tronco murinas mesenquimais e embrionárias no tratamento da Distrofia Muscular de Duchenne. A sua capacidade de regenerar o músculo distrófico foi averiguada in vitro e in vivo, no modelo murino mdx. Em cultura, constatou-se que as células tronco mesenquimais de medula óssea (MSC) têm a capacidade de fusão e diferenciação espontânea em fibras musculares, independentemente de estímulo de outros tipos celulares ou de indução in vitro à miogênese. Quando injetadas no músculo afetado, células MSC expressando a proteína GFP só foram detectadas, no máximo, após 3 dias, sugerindo a sua eliminação após este período. Quando injetadas via sistêmica, as células MSC eGFP não foram direcionadas corretamente para o músculo distrófico. Estas células também foram eliminadas em camundongos selvagens da linhagem FVB, sugerindo que a proteína GFP poderia ser a responsável pela sua rejeição. As células tronco embrionárias (ES-linhagem 129) também demonstraram capacidade miogênica in vitro. Quando injetadas no músculo de camundongos mdx imunossuprimidos, provocaram reação inflamatória muito intensa e grande aumento local da massa muscular. Essa nova estrutura, no entanto, não continha células com características de fibras musculares. Nos camundongos injetados sistemicamente, as células ES permaneceram na região de sua introdução na cauda, demonstrando pouca distribuição e disseminação para o músculo lesado. A análise de marcadores polimórficos específicos da linhagem das células ES permitiu a identificação das mesmas na concentração mínima de 30%. Este resultado indica que a hipertrofia observada no músculo do camundongo injetado foi causada, pelo menos, por esta quantidade de células. Estudos adicionais são necessários para aumentar o potencial terapêutico destas células em modelos distróficos murinos. / We investigated therapeutic potential of murine mesenchymal and embryonic stem cells in the treatment of Duchenne Muscular Dystrophy. Their ability to regenerate the dystrophic muscle was studied in vitro and in vivo, in the murine mdx model. In culture, bone marrow mesenchymal stem cells (MSC) showed the capacity to fuse and to spontaneously differentiate into muscle fibers, independently of stimulation by contact with other cell types or exposure to miogenic factors in vitro. When injected into affected muscles, MSC expressing GFP protein were detected after 3 days at most, suggesting their elimination after this period. When injected in the systemic via, MSC eGFP were not properly directed to the dystrophic muscle. These cells were also eliminated in the wild strain FVB mice, suggesting that GFP protein could be responsible for this rejection. The embryonic stem cells (ES-line 129) also showed a good miogenic capacity in vitro. When injected into the muscle of immunosuppressed mdx mice, they caused very intense inflammatory reaction and a significant increase of its leg muscle mass. However, this new tissue did not contain cells with muscle fibers characteristics. In systemically injected mice, the ES cells remained in the region of introduction in the tail, showing poor distribution and dissemination into the injured muscle. Specific ES cell line polymorphic markers analysis identified a concentration of at least 30%. This result indicates that muscle hypertrophy observed in injected mice was caused by at least this amount of cells. Additional studies are necessary to increase the therapeutic potential of these cells in dystrophic murine models.

Cellular Theraphy

Células Tronco

Distrofia Muscular de Duchenne

Distrofina

Distrophyn

Duchenne Muscular Dystrophy

Stem cells

Terapia celular

Exploring Dystrophin-Mediated Control of Neural Stem Cell Fate Associated with Intellectual Disability In Duchenne Muscular Dystrophy Patients

Thompson, Shannon

13 September 2018

Duchenne Muscular Dystrophy (DMD) is an X-linked recessive neuromuscular disease characterized by progressive muscle-wasting and loss of mobility. One-third of patients with DMD are also affected by cognitive impairments such as a lower than average IQ and impaired working memory, comorbid with neuropsychiatric disorders such as anxiety and autism-related behaviours. DMD is caused by mutations in the DMD gene resulting in the deletion of the full-length dystrophin protein (Dp427) and, dependent on mutation, other dystrophin isoforms. These isoforms are predominantly found in the brain and deletion may impact on cognition. The most commonly used animal model to study DMD is the mdx mouse which completely lacks Dp427 but no other DMD isoforms. Although the muscle phenotype is well-established, behavioural characterization of the mdx mouse model has been inconclusive. In this thesis I investigated the hippocampal and amygdala cellular and behavioural phenotypes of the mdx mouse. I show that post-natal neural stem-like cell division in the SGZ is altered in the absence of Dp427 resulting in enhanced symmetric division. I show in vitro that primary mdx cultures are fewer and smaller than wild-type, consistent with an increase in symmetrical self-renewal whereas secondary cultures are fewer and larger, consistent with a shift in symmetric division producing transit-amplifying type 2a daughter cells. I next characterized the mdx mouse model using a battery of behavioural tests. Data presented here show that mdx mice do not exhibit an anxious phenotype, do not display autism-related behaviours, and do not display impairments in and spatial learning or memory. However, associative learning, as measured in the fear conditioning paradigm is enhanced in mdx mice. Lastly, I attempted to generate three different brain-specific dystrophin knock-out mouse models to examine role of other dystrophin isoforms. While none of the models were able to deplete dystrophin from brain, given the inverse relationship between Cre-mediated efficiency and the genetic distance of the loxP sites in the fDMDH mouse employed, I do provide important insight into the presence and absence of the muscle-specific enhancers in constructs commonly used to generate brain-specific mouse models. Taken together, this thesis provides converging evidence to indicate that loss of Dp427 impacts on fear associative learning and stem-cell like division in the SGZ but likely does not underlie the non-progressive cognitive impairments affecting one-third of all DMD patients.

Neural Stem Cell

Duchenne Muscular Dystrophy

Dystrophin

mdx mouse model

mouse behaviour

Morphologische Untersuchungen an Myoblasten von Patienten, die an facioscapulohumeraler Muskeldystrophie (FSHD) leiden / Morphological studies on myoblasts of patients with facioscapulohumeral muscular dystrophy

Kißner [geb. Stenger], Stefanie Martina

January 2018

Die autosomal-dominant vererbte facioscapulohumerale Muskeldystrophie (FSHD) ist mit einer Prävalenz von etwa 1:20.000 die dritthäufigste Form der hereditären Myopathien. Erste Beschwerden werden meist in der zweiten Lebensdekade beobachtet. Betroffen sind vor allem die Muskulatur von Gesicht, Schultern, Oberarmen, die Fußhebermuskulatur und die Muskeln des Hüftgürtels. FSHD wird durch einen Gendefekt ausgelöst, der den langen Arm des Chromosoms vier (4q35) betrifft, wobei es zur teilweisen Deletion des polymorphen Abschnitts D4Z4, der für das Protein DUX4 codiert, kommt. Dabei treten unter anderem Störungen in der DUX4-Expression, Veränderungen der myogenen Genexpression, eine Unterdrückung der Muskelzelldifferenzierung und eine Inhibition der Muskelbildung auf. FSHD und eine andere Form der Muskeldystrophie, die Emery-Dreifuss-Muskeldystrophie (EDMD), zeigen trotz unterschiedlicher genetischer Ursachen phänotypisch Ähnlichkeiten in der Ausprägung der Erkrankungen. In früheren Studien zeigte die Kernhülle von EDMD-Myoblasten morphologische Auffälligkeiten. In anderen Untersuchungen waren morphologische Veränderungen der Mitochondrien von FSHD-Patienten festzustellen. Daher wurden elektronenmikroskopische Untersuchungen der Kernhülle und der Mitochondrien von FSHD-Myoblasten durchgeführt und mit der entsprechenden Kontrolle verglichen. Hierfür wurden drei verschiedene Zelllinien-Paare in unterschiedlichen Passagen, das heißt unterschiedlicher Anzahl an Subkultivierungen, eingesetzt, wobei in den höheren Passagen vermehrt morphologische Atypien beobachtet werden konnten. Die eingesetzten Zelllinien differenzieren sich durch verschiedene Parameter wie beispielsweise Alter und Geschlecht der Patienten. Dabei zeigten sich sowohl zwischen den Kontrollzellen als auch zwischen den FSHD-Myoblasten Unterschiede. Im Rahmen der Probenvorbereitung für die Elektronenmikroskopie kamen zwei verschiedene Fixierungsmethoden zum Einsatz: die konventionelle chemische Fixierung, Entwässerung und Flacheinbettung von Kulturzellen und die Hochdruckgefrierung mit anschließender Gefriersubstitution. In Bezug auf die Qualität des Strukturerhalts, die beim Hochdruckgefrieren erreicht wird, wird dieser Art der Fixierung eine Überlegenheit gegenüber allen anderen Verfahren zugeschrieben. Diese allgemeine Aussage kann nicht vollständig auf die Untersuchungen an den Myoblasten übertragen werden. Für die Untersuchung der Kernmembranen sind beide Methoden geeignet, wobei der Abstand zwischen innerer und äußerer Kernmembran nach der HPF-Fixierung schärfer abgebildet wurde. Bei der Darstellung der Mitochondrien zeigten die elektronenmikroskopischen Aufnahmen nach dem Hochdruckgefrieren bessere und schärfere Ergebnisse. Die Kernporen waren bei beiden Fixierungsmethoden gut erkennbar. Beim Vergleich der gesunden und erkrankten Myoblasten wiesen die Kontrollzellen deutlich weniger Auffälligkeiten auf als die Myoblasten von FSHD-Patienten. Innere und äußere Kernmembran verliefen bei den Kontrollzellen meist parallel und die Mitochondrien zeigten in den meisten Fällen eine typische wurmartige, längliche Form mit Cristae. Dies traf sowohl für die konventionelle Fixierung als auch für das Hochdruckgefrieren zu. Die erkrankten Myoblasten wiesen im Vergleich zur Kontrolle bei beiden Fixierungsmethoden deutliche Auffälligkeiten in der Mitochondrien-Morphologie auf. Neben einer oft großen Variationsbreite hinsichtlich Form und Länge war auch das teilweise Fehlen der Cristae festzustellen. Bei Betrachtung der Kernhülle fielen jedoch deutliche Unterschiede zwischen konventioneller und HPF-Fixierung auf. Die äußere Kernmembran der konventionell fixierten FSHD-Myoblasten verlief unregelmäßig und gewellt. Im Gegensatz dazu wies die Kernhülle der HPF-fixierten erkrankten Myoblasten einen erstaunlich parallelen Verlauf auf. Da bei EDMD in vorangegangenen Untersuchungen auch fluoreszenzmikroskopisch Veränderungen der erkrankten Zellen auffällig waren, wurde neben den Methoden der Elektronenmikroskopie das Vorliegen und die Verteilung verschiedener Proteine in FSHD-Myoblasten mittels indirekter Immunfluoreszenz untersucht und mit den Kontrollzellen verglichen. Zur Beurteilung der Kernhülle wurden Antikörper gegen Lamin A/C und Nukleoporine eingesetzt. Die Mitochondrien wurden mithilfe des Antikörpers ANT1/2, der an den Adenin-Nukleotid-Translokator der inneren Mitochondrienmembran bindet, untersucht. Im Gegensatz zu den Untersuchungen an EDMD-Myoblasten waren die Lamine A und C sowie die Kernporen sowohl bei den Myoblasten der FSHD-Patienten als auch bei den Kontrollzellen nachweisbar und gleichmäßig verteilt. Bei der indirekten Immunfluoreszenz mit ANT1/2 zeigten sich Unterschiede zwischen den untersuchten Myoblasten-Paaren. Durch die vorliegenden Ergebnisse ist darauf zu schließen, dass die Myoblasten von FSHD-Patienten Veränderungen Mitochondrien aufweisen. Die Untersuchungen der Kernhülle liefern abhängig von der Fixierungsmethode unterschiedliche Ergebnisse. / The autosomal dominant facioscapulohumeral muscular dystrophy (FSHD), with a prevalence of about 1:20,000, is the third most common form of hereditary myopathy. First complaints are usually observed in the second decade of life. Most affected are the muscles of the face, shoulders, upper arms, lower legs and girdle. FSHD is triggered by a gene defect affecting the long arm of chromosome four (4q35), resulting in the partial deletion of polymorphic portion D4Z4 encoding the protein DUX4. This leads to disorders in DUX4 expression, changes in myogenic gene expression, suppression of muscle cell differentiation and inhibition of muscle formation. FSHD and another form of muscular dystrophy, the Emery-Dreifuss muscular dystrophy (EDMD), show phenotypic similarities in the severity of the disease, despite different genetic causes. In previous studies, the nuclear envelope of EDMD myoblasts showed morphological abnormalities. Other studies revealed morphological changes in the mitochondria of FSHD patients. Therefore, electron micrographs of the nuclear envelope and mitochondria of FSHD myoblasts were performed and compared to the corresponding control. For this purpose, three different pairs of myoblasts were used in different passages, that is, different numbers of subcultures, with increased morphological atypia being observed in the higher passages. The cell lines used differentiate by several parameters such as age and sex of the patients. There were differences between the control cells as well as between the FSHD myoblasts. Two different fixation methods were used in sample preparation for electron microscopy: conventional chemical fixation, drainage and flat embedding of cultured cells and high-pressure freezing with subsequent freeze substitution. In terms of the quality of structure preservation achieved in high pressure freezing, this type of fixation is attributed superiority over all other methods. This general statement cannot be completely applied to the investigations on the myoblasts. For the investigation of the nuclear membranes both methods are suitable, whereby the distance between inner and outer nuclear membrane after the HPF fixation was more sharply mapped. In the representation of mitochondria, the electron micrographs after high pressure freezing showed better and sharper results. The nuclear pores were easily recognizable in both fixation methods. When comparing the healthy and diseased myoblasts, the control cells showed significantly less abnormalities than the myoblasts of FSHD patients. The inner and outer nuclear membrane were mostly parallel in the control cells, and the mitochondria in most cases showed a typical worm-like elongated form with cristae. This was true for both conventional fixation and high pressure freezing. FSHD myoblasts exhibited marked abnormalities in mitochondrial morphology compared to controls in both fixation methods. In addition to an often wide range of variation in shape and length there was also noted the partial absence of cristae. When looking at the nuclear envelope, however, there were clear differences between conventional and HPF fixation. The outer nuclear membrane of the conventionally fixed FSHD myoblasts was irregular and wavy. In contrast, the nuclear envelope of HPF fixed diseased myoblasts showed an astonishingly parallel course. Since in EDMD changes in the diseased cells were also noticeable by fluorescence microscopy, in addition to the methods of electron microscopy, the presence and distribution of various proteins in FSHD myoblasts was examined by indirect immunofluorescence and compared with the control cells. To assess the nuclear envelope, antibodies against lamin A/C and nucleoporins were used. The mitochondria were examined using the antibody ANT1 / 2, which binds to the adenine nucleotide translocator of the inner mitochondrial membrane. In contrast to the studies on EDMD myoblasts, the lamins A and C as well as the nuclear pores were detectable and evenly distributed both in the myoblasts of the FSHD patients and in the control cells. Indirect immunofluorescence with ANT1 / 2 showed differences between the investigated myoblasts. The present results suggest that the myoblasts of FSHD patients have changes in mitochondria. The investigations of the nuclear envelope provide different results depending on the fixation method.

Landouzy-Déjerine-Atrophie

Facioscapulohumeral muscular dystrophy

Myoblast

Morphologie <Biologie>

ddc:610

Studies towards a general method for attachment of a nuclear import signal. Stabilization of the m₃G-Cap.

Lindvall, Mattias

January 2010

<p>A synthetic pathway towards the cap-structure of 2,2,7-trimethylguanosine containing a methylene modified triphosphate bridge have been investigated. The modification to the triphosphate bridge is hoped to slow down cap degradation and give the connected  oligunucleotide an increased lifetime. This could result in an better understanding of nuclear transport of oligonucleotides and could thereby helping to develop new treatments for different diseases. The synthesis relies on a coupling reaction between the 2,2,7-trimethylguanosine 5’phosphate and 2’-<em>O</em>-methyladenosine with a 5’-pyrophosphate where the central oxygen has been replaced by a methylene group. The reaction pathway consists of 9 steps of which 8 steps have been successfully performed. The last step, which includes a coupling reaction, was attempted but without successful identification and isolation of the cap-structure, and will need further attention. The reaction has been performed in a milligram scale with various yields.</p> / Presentation utförd

m3G-cap

nuclear transport

Duchennes Muscular Dystrophy

Guanosine triphosphate analouges

Chemistry

Kemi

Alternativ splicing i mänsklig sjukdom

Edin, Joel

January 2010

<p>Exoner är de sekvenser i DNA vilka rymmer koden för proteiner i människan och i alla andra organismer. Intronerna, vilka utgör utrymmet mellan exoner, består av ickekodande sekvenser och kontrollelement. Exoner tillhörande en gen måste inte alltid inkluderas i den slutliga mRNA produkten, alternativ splicing tillåter exkludering av vissa sekvenser och gör att en gen kan ha mer än en mRNA produkt, därigenom kan en gen koda för flera olika proteiner. Alternativ splicing är ett fält som snabbt utvecklas och dess relevans för många sjukdomar har blivit uppenbar. Detta arbete går igenom ett flertal av dessa sjukdomar för att sammanställa ny forskning och tydliggöra rollen av alternativ splicing i dem. De sjukdomar som undersökts är cystisk fibros, ärftlig frontotemporal dementia, systemisk lupus erythematosus, aniridi, myotonisk dystrofi, amyotrophic lateral sclerosoch familial dysautonomia. Dessa sjukdomar har involvering av alternativ splicing, de genetiska processerna bakom dem är dock mycket olika och kan visa på de många sätt alternativ splicing kan påverka cell och kroppsfunktion. Målet med arbetet är en översiktlig bild av framstegen som gjorts och vilken forskning som nu bedrivs.</p>

Splicing

alternativ splicing

ALS

SLE

myotonisk dystrofi

myotonic dystrophy

aniridi

genetic disease

New insights into the disease mechanisms of Duchenne muscular dystrophy through analyses of the dystrophin, I[kappa]B[beta], and CASK proteins

Gardner, Katherine Lynn,

January 2006

Thesis (Ph. D.)--Ohio State University, 2006. / Title from first page of PDF file. Includes bibliographical references (p. 147-163).

Two New Corneal Diseases Characterized by Recurrent Erosions

Hammar, Björn

January 2009

Recurrent corneal erosions are a common complication of superficial corneal wounds. They most commonly arise following a trauma, in association with various corneal dystrophies, or are idiopathic. The main aim of this thesis was to investigate two hereditary corneal diseases with recurrent erosions in order to find out if they had been described before, and more specifically to describe the clinical picture and the morphological changes, differentiate them from other known autosomal dominant corneal dystrophies with a clinical resemblance, and to exclude genetic linkage to known corneal dystrophies with autosomal-dominant inheritance and a clinical resemblance. The thesis is based on two families of subjects belonging to different phenotypes. The subjects from Småland (Dystrophia Smolandiensis) belonged to a six-generation family, which included 171 individuals of whom 44 were affected individuals, and the family from Hälsingland (Dystrophia Helsinglandica) included sevengenerations of 342 individuals, of whom 84 were affected. The individuals in both families were investigated by collection of medical history through medical records and questionnaires assessing different aspects of the diseases, pedigree analysis, and from clinical examination. Haplotype analysis was used to exclude genetic linkage of both diseases to known autosomal-dominant corneal dystrophies with a clinical resemblance. The morphological changes in Dystrophia Smolandiensis were investigated by examining affected individuals with in-vivo confocal microscopy and/or slit-lamp biomicroscopy, and examining corneal tissue samples using histopathology and immunohistochemistry. In Dystrophia Helsinglandica, the morphological changes were described using in-vivo confocal microscopy and/or slit-lamp biomicroscopy, but also using videokeratography and corneal sensitivity measurement. The main results were the findings of two new corneal disorders with autosomal dominant inheritance, characterized by recurrent corneal erosions. In Dystrophia Smolandiensis the symptoms often started within the first year of life. The number of recurrences per year was highest from the onset and for about 30-40 years, and the duration of recurrence could stretch up to 21 days. The frequency of recurrences was variable in the disease from continuous symptoms to once a year and tended to decrease later in life. The risk of having recurrences did not disappear completely with age. Typical precipitating factors of recurrence were draught and a common cold. About two thirds of the affected individuals responded well to oral vitamin B treatment, but no other therapy has so far been successful. In Dystrophia Smolandiensis development of corneal opacifications or secondary scarring of varying type and degree was seen in about half of the subjects. Opacifications were first noted at the age of about 7 years, but usually first seen at the age of 20-40 years. Corneal grafting was performed in nine individuals, and recurrences were seen in all grafts. The corneal buttons showed epithelial hyperplasia, partial or total loss of Bowman’s layer, and subepithelial fibrosis in the light microscope. The deeper stroma, Descement’s membrane, and endothelium were normal. Confocal microscopy confirmed loss of Bowman’s layer and revealed that the corneal nerves either were normal in their sub-basal plexa or showed signs of regeneration. None of the morphological findings were specific. We believe that the opacifications are reactive corneal changes to repeated erosive events. The onset in Dystrophia Helsinglandica was usually at the age of 4-7 years and late-developing subepithelial fibrosis not significantly affecting visual acuity was seen in all affected individuals over the age of 37 years. The number of recurrences per year was highest from the onset and for about 20-30 years, and the duration of recurrence was usually up to about a week. The frequency of recurrences tended to decrease in the disease with increasing age, but did not cease completely. The precipitating factor of recurrence was typically a minor trauma. No therapy has so far been successful in the family. The corneal changes of affected individuals were classified into different stages from a nearly normal cornea to progressive fairly discrete subepithelial fibrosis of the central cornea. Discrete localized Subepithelial fibrosis in the periphery or mid-periphery (stage I) was the sole finding in 12% of the individuals. A more widespread subepithelial fibrosis, mainly in the mid-periphery, was found in 31% of the individuals (stage II). In stage III, the subepithelial fibrosis engaged the central cornea but did not affect the vision to a significant degree. In late phases of stage III small jellylike corneal irregularities could be seen. We believe that the opacifications are reactive changes to repeated erosive events. In conclusion this thesis describes two new corneal disorders – Dystrophia Smolandiensis and Dystrophia Helsinglandica.

Cornea

Corneal Dystrophy

Dystrophia Smolandiensis

Dystrophia Helsinglandica

Recurrent Erosions

MEDICINE

MEDICIN

Genetic mapping of retinal degenerations in Northern Sweden

Köhn, Linda

January 2009

Inherited retinal degenerations are a group of disorders characterised by great genetic heterogeneity. Clinically, they can be divided into two large groups of diseases, those associated with night blindness, e.g. retinitis pigmentosa (RP), and those with macular malfunction, e.g. cone/cone-rod dystrophy (COD/CORD). This thesis is focused on finding the genetic basis of disease in families with autosomal dominant COD, autosomal dominant RP, and Bothnia dystrophy (BD), a regional variant of RP.   A variant of COD was previously mapped to 17p12-p13 in a family from northern Sweden. One additional family originating from the same geographical area was included in fine mapping of this chromosome region. Using 12 microsatellite markers in linkage and haplotype analysis, the region was refined from 26.9 to 14.3 cM. A missense mutation, Q626H, in an evolutionarily conserved region of PITPNM3, phosphatidylinositol transfer membrane-associated protein, was identified. The mutation segregated with the disease in both families and was absent from normal control chromosomes. PITPNM3 is a human homologue of the Drosophila retinal degeneration (rdgB) protein, which is highly expressed in the retina and has been proposed to be required for membrane turnover of photoreceptor cells. With the intention of establishing the global impact that PITPNM3 has on retinal degenerations 165 DNA samples from COD and CORD patients were obtained from Denmark, Germany, the UK, and USA and screened for mutations. The Q626H mutation found in the Swedish families was also found in one British family and a novel Q342P variant was detected in a German patient. In addition, two intronic variants were identified: c.900+60C&gt;T and c.901-45G&gt;A. Thus, we concluded that mutations in PITPNM3 represent a rare cause of COD worldwide. In two large families from northern Sweden showing autosomal dominant RP with reduced penetrance, the disease locus was mapped using genome-wide linkage analysis to 19q13.42 (RP11). Since mutation screening of eight genes on 19q13.42 revealed no mutations, multiplex ligation-dependent probe amplification (MLPA) was used to screen for large genomic abnormalities in PRPF31, RHO, RP1, RPE65, and IMPDH1. A large deletion spanning 11 exons of PRPF31 and three genes upstream was identified. Using long-range PCR, the breakpoints of the deletion were identified and the size of the deletion was determined to encompass almost 59 kb. BD is an autosomal recessive type of RP with high prevalence in northern Sweden. The disease is associated with a c.700C&gt;T mutation in RLBP1. In a screening of recessive RP in northern Sweden, 67 patients were found to be homozygous for c.700C&gt;T and 10 patients were heterozygous. An evaluation with arrayed primer extension (APEX) technology revealed a second mutation, c.677T&gt;A, in RLBP1 giving rise to compound heterozygosity in these patients. In addition, a c.40C&gt;T exchange in CAIV was detected in a patient with BD and in 143 healthy blood donors. The c.40C&gt;T substitution in CAIV has been reported to cause autosomal dominant RP in South African families with European ancestry. However, in the population of northern Sweden it appears to be a benign polymorphism. In summary, a first mutation in PITPNM3, encoding a human homologue of the Drosophila retinal degeneration protein, was detected in two large families with COD. A large deletion in PRPF31 was discovered in two families with autosomal dominant RP showing reduced penetrance and in 10 patients BD was shown to be caused by two allelic mutations in RLBP1.

Medical genetics

Medicinsk genetik

Adaptations of dystrophic and normal skeletal muscle to a stretch-overload regimen

Uhl, Jennifer J.

03 June 2011

Ball State University LibrariesLibrary services and resources for knowledge buildingMasters ThesesThere is no abstract available for this thesis.

Muscular dystrophy.

Calcium -- Metabolism.

Muscles.

Hamsters -- Physiology.

Ball State University. Thesis (M.S.)

The fibrinolitys system in muscle regeneration and dystrophy

Vidal Iglesias, Berta

17 September 2008

Duchenne muscular dystrophy (DMD) is a fatal degenerative disorder of locomotor and respiratory muscles, in which myofibers are progressively replaced by non-muscular fibrotic tissue. Here, we show that fibrin/ogen accumulates in dystrophic muscles of DMD patients and of the mdx mouse model of DMD. Genetic loss or pharmacological depletion of fibrin/ogen in mdx mice attenuated muscular dystrophy progression and improved locomotor capacity. More importantly, fibrin/ogen depletion reduced fibrosis in mdx mouse diaphragm. Our data indicate that fibrin/ogen, through induction of IL-1 Ò, drives the synthesis of TGF Ò by mdx macrophages, which in turn, induces collagen production in mdx fibroblasts. Fibrin/ogen-produced TGF Ò further amplifies collagen accumulation through recruitment and activation of pro-fibrotic alternatively activated macrophages. Fibrin/ogen also stimulated collagen synthesis directly in mdx fibroblasts, via Ñv Ò3 integrin engagement. In addition, when analyzing a group of 39 DMD patients, fibrin/ogen accumulation in locomotor muscles was found associated with fibrosis and disease severity. These data unveil a novel role of fibrin/ogen in muscular dystrophy and, importantly, in the replacement of muscle by fibrotic tissue.

inflammation

dystrophy

fibrinogen

UPA

fibrosi

múscul

inflamació

distròfia

fibrinogen

UPA

muscle

fibrosis

616.7