Spelling suggestions: "subject:"lipofuscin""
11 |
A study of neuronal ceroid lipofuscinosis proteins CLN5 and CLN8De Silva, Weerakonda Arachchige Bhagya Nilukshi January 1900 (has links)
Master of Science / Biochemistry and Molecular Biophysics Interdepartmental Program / Stella Yu-Chien Lee / Neuronal ceroid lipofuscinoses (NCLs) are a group of neurodegenerative lysosomal storage
disorders which is the most frequent group of inherited neurodegenerative disorders that affect
children leading to severe pathological conditions such as progressive loss of motor neuron
functions, loss of vision, mental retardation, epilepsy, ataxia and atrophy in cerebral, cerebella
cortex and retina and eventually premature death. Among the many genes that cause NCL,
mutations in CLN5 leads to different forms of NCL (infantile, late infantile, juvenile and adult)
and mutations in CLN8 leads to progressive epilepsy with mental retardation (EPMR) and a
variant late infantile form of NCL. The function(s) of both CLN5 and CLN8 proteins remain
elusive.
CLN5 is a glycosylated soluble protein that resides in the lysosome. We observed that
endogenous CLN5 protein exist in two forms and identified a previously unknown C-terminal
proteolytic processing event of CLN5. Using a cycloheximide chase experiment we
demonstrated that the proteolytic processing of CLN5 is a post-translational modification.
Furthermore treatment with chloroquine showed the processing occurs in low pH cellular
compartments. After treatment with different protease inhibitors our results suggested the
protease involved in the processing of CLN5 could be a cysteine protease. Using two
glycosylation mutants of CLN5, retained in the endoplasmic reticulum (ER) or the Golgi we
showed the proteolytic processing occurs in an organelle beyond the ER. This study contributes
to understanding the characteristics of the CLN5 protein.
CLN8 is an ER resident transmembrane protein that shuttles between the ER and the ER-Golgi
intermediate compartment (ERGIC). In our study we identified a potential interaction between
CLN8 and a PP2A holoenzyme complex consisting regulatory subunit A α isoform and
regulatory subunit B α isoform. Using two CLN8 patient derived fibroblast cell lines we were
able to show that the phosphorylated levels of PP2A target kinase Akt was reduced at both of its
regulatory sites Ser473 and Thr308 and the activity of PP2A was increased. A delay of ceramide
transport from ER to Golgi in CLN8 deficient patient cell lines was observed using BODIPY FL
C5-Ceramide staining. Our results provide evidence for CLN8 protein being involved in the
regulation of PP2A activity and trafficking of ceramide from ER to Golgi.
|
12 |
Role of N-glycosylation in trafficking and stability of human CLN5Moharir, Akshay January 1900 (has links)
Master of Science / Division of Biology / Stella Y Lee / Neuronal Ceroid Lipofuscinoses (NCLs) are a group of lysosomal storage diseases that are characterized by accumulating autofluorescent lipopigments in cells. NCLs are a form of progressive neurodegenerative diseases with symptoms ranging from blindness, loss of speech and motor activities to ataxia and seizures. Patients do not live to adulthood in most cases, making it prevalent in children. Among the many genes that cause NCL, CLN5 leads to different forms of NCL (infantile, late infantile, juvenile, and adult). CLN5 protein resides in the lysosomes but its function has not been established. It is predicted to contain eight N-glycosylation sites, but the role of N-glycosylation on its function and trafficking has not been assessed.
We analyzed the role of N-glycosylation on the transport and stability of human CLN5. We created N-glycosylation mutants of each site by changing the Asn to Gln and our analysis of these mutants show that all the eight N-glycosylation sites are used in vivo. We also report effects of abolishing individual N-glycosylation sites on the trafficking of CLN5. While the lack of glycosylation at some sites results in CLN5 being retained in the ER or Golgi, others do not affect CLN5 trafficking. Cycloheximide chase experiments show that one of the mutants (N401Q) in CLN5 leads to lower protein levels in cell pellets with an increased secretion compared to CLN5 wild type, while other mutations show differential stability in cell pellets. These results demonstrate that each N-glycosylation site plays a different role(s) in the stability, transport and/or function of CLN5.
|
13 |
Examination of abnormal dolichol metabolism in infantile Batten Disease caused by palmitoyl protein thioesterase-1 (PPT1) deficiencyCho, Steve Kyungrae. January 2004 (has links) (PDF)
Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 112-129.
|
14 |
Algorithms for Crystal Structure Determination in Macromolecular CrystallographyLübben, Anna 21 June 2019 (has links)
No description available.
|
15 |
Colocalization of neuronal ceroid lipofuscinosis proteins suggests a common pathway involved in embryonic and adult neurogenesisMigliozzi, Madyson 24 November 2021 (has links)
The neuronal ceroid lipofuscinoses (NCLs) are a family of neurodegenerative diseases predominantly affecting infants and children, which in some cases can present into adulthood. There are fourteen genes comprising the 13 known subtypes of NCLs (CLN1-CLN8, CLN10-CLN14; CLN9 has been reclassified as CLN4). The NCL diseases share common molecular and clinical features, including cellular accumulation of autofluorescent storage material, characteristic histological findings (curvilinear inclusions, fingerprint profiles, and granular osmophilic deposits), markedly low brain weight, seizures, blindness, motor dysfunction and behavioral disabilities. Though the functions of the CLN proteins are not fully understood, they are mainly localized to the lysosomal compartment and autophagic pathway. Previous works have focused on understanding the individual functions of the CLN proteins. However, there is little research examining the interactions between CLN proteins and their involvement in neurogenesis. The CLN proteins also show involvement in various other signaling pathways, notably the mTOR and p53 pathways, and may therefore have implication as important signaling molecules during development and aging.
In this thesis, I outline a variety of interactions between CLN proteins, as well as their role in lysosome formation and autophagy. I further examine the involvement of these proteins in lysosomes of microglia, and potential functions of microglia during neurogenesis in childhood and adulthood. I hypothesize that the CLN proteins are likely involved in a common pathway which is highly regulated during neurogenesis through microglial release of pro-inflammatory molecules. Though these diseases are incurable, enzyme replacement shows promise as a treatment for NCL; cerliponase alpha (BioMarin Pharmaceuticals) is the first and only FDA-approved enzyme replacement treatment for CLN2 disease. Future in-depth investigation of protein-protein interactions as well as their involvement in signaling pathways during development is necessary in order to find a cure for these devastating diseases.
|
16 |
In vitro modeling of neuronal ceroid lipofuscinosis (NCL): Patient fibroblasts and their reprogrammed derivatives as human models of NCLLojewski, Xenia 31 July 2013 (has links) (PDF)
The discovery of resetting human somatic cells via introduction of four transcription factors into an embryonic stem cell-like state that enables the generation of any cell type of the human body has revolutionized the field of medical science. The generation of patient-derived iPSCs and the subsequent differentiation into the cells of interest has been, nowadays, widely used as model system for various inherited diseases.
The aim of this thesis was to generate iPSCs and to subsequently derive NPCs which can be differentiated into neurons in order to model the two most common forms of the NCLs: LINCL which is caused by mutations within the TPP1 gene, encoding a lysosomal enzyme, and JNCL which is caused by mutations within the CLN3 gene, affecting a lysosomal transmembrane protein.
It was shown that patient-derived fibroblasts can be successfully reprogrammed into iPSCs by using retroviral vectors that introduced the four transcription factors POU5F1, SOX2, KLF4 and MYC. The generated iPSCs were subsequently differentiated into expandable NPCs and finally into mature neurons.
Phenotype analysis during the different stages, namely pluripotent iPSCs, multipotent NPCs and finally differentiated neurons, revealed a genotype-specific progression of the disease. The earliest events were observed in organelle disruption such as mitochondria, Golgi and ER which preceded the accumulation of subunit c of the mitochondrial ATPase complex that was only apparent in neurons. However, none of these events led to neurodegeneration in vitro.
The established disease models recapitulate phenotypes reported in other NCL disease models such as mouse, dog and sheep model systems. More importantly, the hallmark of the NCLs, accumulation of subunit c in neurons, could be reproduced during the course of disease modeling which demonstrates the suitability of the established system. Moreover, the derived expandable NPC populations can be used for further applications in drug screenings. Their robust phenotypes such as low levels of TPP1 activity in LINCL patient-derived NPCs or cytoplasmic vacuoles, containing storage material, observed in CLN3 mutant NPCs, should serve as possible phenotypic read-outs.
|
17 |
Exosomes as Potential Transport Vehicles of Tetrahydrobiopterin, 6-Pyrovyoltetrahydrobiopterin-Synthase and Tripeptidyl-Peptidase ILang, Kristina 30 November 2018 (has links)
No description available.
|
18 |
Imaging Data on Characterization of Retinal Autofluorescent Lesions in a Mouse Model of Juvenile Neuronal Ceroid Lipofuscinosis (CLN3 Disease)Wang, Qing Jun, Jung, Kyung Sik, Mohan, Kabhilan, Kleinman, Mark E. 01 October 2020 (has links)
Juvenile neuronal ceroid lipofuscinosis (JNCL, aka. juvenile Batten disease or CLN3 disease), a lethal pediatric neurodegenerative disease without cure, often presents with vision impairment and characteristic ophthalmoscopic features including focal areas of hyper-autofluorescence. In the associated research article “Loss of CLN3, the gene mutated in juvenile neuronal ceroid lipofuscinosis, leads to metabolic impairment and autophagy induction in retinal pigment epithelium” (Zhong et al., 2020) [1], we reported ophthalmoscopic observations of focal autofluorescent lesions or puncta in the Cln3Δex7/8 mouse retina at as young as 8 month old. In this data article, we performed differential interference contrast and confocal imaging analyses in all retinal layers to localize and characterize these autofluorescent lesions, including their spectral characteristics and morphology. We further studied colocalization of these autofluorescent lesions with the JNCL marker mitochondrial ATP synthase F0 sub-complex subunit C and various established retinal cell type markers.
|
19 |
In vitro modeling of neuronal ceroid lipofuscinosis (NCL): Patient fibroblasts and their reprogrammed derivatives as human models of NCLLojewski, Xenia 09 July 2013 (has links)
The discovery of resetting human somatic cells via introduction of four transcription factors into an embryonic stem cell-like state that enables the generation of any cell type of the human body has revolutionized the field of medical science. The generation of patient-derived iPSCs and the subsequent differentiation into the cells of interest has been, nowadays, widely used as model system for various inherited diseases.
The aim of this thesis was to generate iPSCs and to subsequently derive NPCs which can be differentiated into neurons in order to model the two most common forms of the NCLs: LINCL which is caused by mutations within the TPP1 gene, encoding a lysosomal enzyme, and JNCL which is caused by mutations within the CLN3 gene, affecting a lysosomal transmembrane protein.
It was shown that patient-derived fibroblasts can be successfully reprogrammed into iPSCs by using retroviral vectors that introduced the four transcription factors POU5F1, SOX2, KLF4 and MYC. The generated iPSCs were subsequently differentiated into expandable NPCs and finally into mature neurons.
Phenotype analysis during the different stages, namely pluripotent iPSCs, multipotent NPCs and finally differentiated neurons, revealed a genotype-specific progression of the disease. The earliest events were observed in organelle disruption such as mitochondria, Golgi and ER which preceded the accumulation of subunit c of the mitochondrial ATPase complex that was only apparent in neurons. However, none of these events led to neurodegeneration in vitro.
The established disease models recapitulate phenotypes reported in other NCL disease models such as mouse, dog and sheep model systems. More importantly, the hallmark of the NCLs, accumulation of subunit c in neurons, could be reproduced during the course of disease modeling which demonstrates the suitability of the established system. Moreover, the derived expandable NPC populations can be used for further applications in drug screenings. Their robust phenotypes such as low levels of TPP1 activity in LINCL patient-derived NPCs or cytoplasmic vacuoles, containing storage material, observed in CLN3 mutant NPCs, should serve as possible phenotypic read-outs.
|
20 |
Využití nových sekvenačních technik v biomedicínském výzkumu / Application of novel DNA sequencing techniques in biomedical researchPřistoupilová, Anna January 2011 (has links)
Next generation sequencing technologies are changing the way scientific experiments and diseases diagnostics are performed and thus will allow what is called personalized medicine. The sense of presented thesis is to make survey of new approaches to DNA sequencing and demonstrate usage and constraints of bioinformatic analytical tools available to day. Discussed techniques are then applied to the case study of finding molecular basis for rare hereditary disease. Introductory part deals with overview of commercially available sequencing techniques (454 Life Science, Applied Biosystems, Illumina, Helicos). Fundamentals of each method are described and possible further development is outlined. Post sequencing data analysis is than discussed in details. In practical section we demonstrate genome analysis techniques successfully used to reveal causal mutation in the gene responsible for adult form of autozomal neuronal ceroid lipofuscinosis (ANCL). Combination of linkage analysis (Merlin), copy number variant analysis (Genome-Wide Human SNP Array 6.0), analysis of expression profiles (HumanRef-8 v2 Expression BeadChips) and exome sequencing (SOLiD™ 4 System) has been applied to members of one ANCL family. We also paid attention to comparison, evaluation and selection of available mapping algorithms used in...
|
Page generated in 0.0479 seconds