On Protein Recruitment Dynamics in Clathrin-Mediated Endocytosis and its Relation to Membrane Tension

Huber, Scott David

04 September 2019

No description available.

Physics

Cellular Biology

Clathrin

Endocytosis

Tension

CALM

PICALM

Fluorescent microscopy

Nivåer av det lysosomala systemets proteiner i hjärnvävnad från Alzheimerpatienter / Levels of the lysosomal network proteins in brain tissue from Alzheimer's disease patients

Westergren, Samuel

January 2014

Alzheimers sjukdom är den vanligaste orsaken till demens och i samband med att befolkningen blir större och allt äldre ökar även antalet patienter. Vid sjukdomen sker en hjärnatrofi och de mikroskopiska fynd man ser är extracellulära plack av β-amyloid, intracellulära neurofibriller av fosforylerat tau och förlust av nervcellsutskott, axoner, synapser och dendriter. Några av de tidiga patologiska förändringarna man kan se är störningar i nervcellernas lysosomala system som fyller en viktig roll vid nedbrytning av makromolekyler. I en tidigare studie har man påvisat förhöjda nivåer av proteiner från det lysosomala systemet i cerebrospinalvätska. Syftet med den här studien var att mäta nivåer av det lysosomala systemets proteiner i human hjärnvävnad från patienter med Alzheimer och jämföra dessa med kontrollprover. De sex proteiner som analyserades med Western blot var EEA1, PICALM, LAMP-1, LAMP-2, LC3 och TFEB. Resultaten visar på signifikant ökning i temporala cortex av LAMP-1 och LAMP-2 och en signifikant minskning av LC3 och EEA1 hos patienter med Alzheimers sjukdom. För att kunna dra riktiga slutsatser kring hur de ökade nivåerna i cerebrospinalvätska speglar de olika sjukdomsmekanismerna i hjärnan krävs vidare analyser av fler patientprover samt prover från andra områden i hjärnan. / Alzheimer's disease is the most common cause of dementia, and when the population becomes larger and older also the number of patients increase. A cerebral atrophy and microscopic findings of extracellular plaques of β-amyloid, intracellular neurofibrillary of phosphorylated tau and loss of nerve cell protrusions, axons, synapses and dendrites are seen during the disease. One of the early pathological changes is the disruption of the neuronal lysosomal network that plays an important role in the degradation of macromolecules. In a previous study elevated levels of proteins of the lysosomal network in cerebrospinal fluid from Alzheimer’s disease patients was demonstrated. The purpose of this study was to measure levels of the lysosomal network system in the brain. The six proteins EEA1, PICALM, LAMP-1, LAMP -2, LC3 and TFEB were analyzed in human brain tissue from five Alzheimer's disease cases and five control cases by Western blot. The results show a significant increase in the temporal cortex of LAMP-1 and LAMP -2 and a significant decrease of LC3 and EEA1 in patients with Alzheimer's disease. In order to draw proper conclusions about how the increased levels in cerebrospinal fluid reflect the different disease mechanisms in the brain it requires further analysis of more patient samples and from other areas of the brain.

Alzheimer’s disease

lysosome

endosome

autophagy

EEA1

PICALM

LAMP-1

LAMP -2

LC3

TFEB

Alzheimers sjukdom

lysosom

endosom

autofagi

EEA1

PICALM

LAMP-1

LAMP -2

LC3

TFEB

Neurology

Neurologi

Neurosciences

Neurovetenskaper

The Purification and Identification of Interactors to Elucidate Novel Connections in the HEK 293 Cell Line

Hawley, Brett

23 November 2012

The field of proteomics studies the structure and function of proteins in a large scale and high throughput manner. My work in the field of proteomics focuses on identifying interactions between proteins and discovering novel interactions. The identification of these interactions provides new information on metabolic and disease pathways and the working proteome of a cell. Cells are lysed and purified using antibody based affinity purification followed by digestion and identification using an HPLC coupled to a mass spectrometer. In my studies, I looked at the interaction networks of several AD related genes (Apolipoprotein E, Clusterin variant 1 and 2, Low-density lipoprotein receptor, Phosphatidylinositol binding clathrin assembly protein, Alpha-synuclein and Platelet-activating factor receptor) and an endosomal recycling pathway involved in cholesterol metabolism (Eps15 homology domain 1,2 and 4, Proprotein convertase subtilisin/kexin type 9 and Low-density lipoprotein receptor). Several novel and existing interactors were identified and these interactions were validated using co-immunopurification, which could be the basis for future research.

Proteomics

Alzheimer's Disease

Apolipoprotein E

Clusterin

PICALM

Synuclein

Low-density lipoprotein receptor

Platelet activating factor receptor

affinity purification

The Purification and Identification of Interactors to Elucidate Novel Connections in the HEK 293 Cell Line

Hawley, Brett

23 November 2012

The field of proteomics studies the structure and function of proteins in a large scale and high throughput manner. My work in the field of proteomics focuses on identifying interactions between proteins and discovering novel interactions. The identification of these interactions provides new information on metabolic and disease pathways and the working proteome of a cell. Cells are lysed and purified using antibody based affinity purification followed by digestion and identification using an HPLC coupled to a mass spectrometer. In my studies, I looked at the interaction networks of several AD related genes (Apolipoprotein E, Clusterin variant 1 and 2, Low-density lipoprotein receptor, Phosphatidylinositol binding clathrin assembly protein, Alpha-synuclein and Platelet-activating factor receptor) and an endosomal recycling pathway involved in cholesterol metabolism (Eps15 homology domain 1,2 and 4, Proprotein convertase subtilisin/kexin type 9 and Low-density lipoprotein receptor). Several novel and existing interactors were identified and these interactions were validated using co-immunopurification, which could be the basis for future research.

Proteomics

Alzheimer's Disease

Apolipoprotein E

Clusterin

PICALM

Synuclein

Low-density lipoprotein receptor

Platelet activating factor receptor

affinity purification

Expression and Splicing of Alzheimer’s Disease Risk Gene Phosphatidylinositol-Binding Clathrin Assembly Protein

Parikh, Ishita

01 January 2014

Recent Genome Wide Association Studies (GWAS) have identified a series of single nucleotide polymorphism (SNP)s that are associated with Alzheimer’s disease (AD). One of the SNPs, rs3851179 (G/A), is near the gene phosphatidylinositol-binding clathrin assembly protein (PICALM). To evaluate whether this SNP is associated with PICALM expression, we quantified PICALM mRNA in 56 brain cDNA samples. Using linear regression analysis, we analyzed PICALM expression relative to rs3851179, AD status, and cell type specific markers. An association was detected between rs3851179 and PICALM, microvessel mRNA, glial fibrillary acidic protein (GFAP) mRNA, and synaptophysin (SYN) mRNA. To gain clarity into other possible SNP mechanisms, we searched brain cDNA for PICALM splice variants. We identified several PICALM splice variants involving exons 13-19. To identify and gain an estimation of relative abundance of splice variants, we PCR-amplified across exons 13-20 in cDNA from six individuals, three rs3851179 GG individuals and three rs3851179 AA individuals. Sequencing the cloned isoforms we found that PICALM lacking exon 13 (delta 13) is the most abundant isoform. Other isoforms detected included deletion of exon 18-19. We targeted the latter part of the gene, exon 17-20, to investigate unequal allelic expression using next generation sequencing. Individuals heterozygous for rs76719109 (n= 35), located in exon 17, were used to study the abundance of G/T allele in cDNA and genomic DNA. When we analyzed the T:G allelic ratio, the variant lacking exons 18 and 19 showed unequal allelic expression (p-value < 0.001) in a subset of individuals. One individual was an outlier, showing overall unequal allelic expression, which maybe be harboring a rare mutation capable of modifying PICALM expression. The PICALM intronic SNP rs588076 was associated with delta 18-19 isoform splicing (p-value < 0.001). In conclusion, this study gained a greater insight into the role of AD genetics in PICALM expression and splicing.

PICALM

Alzheimer’s disease

Next-generation sequencing

allelic expression imbalance

single nucleotide polymorphism

Medical Genetics

Medical Molecular Biology

Medical Physiology

The Purification and Identification of Interactors to Elucidate Novel Connections in the HEK 293 Cell Line

Hawley, Brett

January 2012

The field of proteomics studies the structure and function of proteins in a large scale and high throughput manner. My work in the field of proteomics focuses on identifying interactions between proteins and discovering novel interactions. The identification of these interactions provides new information on metabolic and disease pathways and the working proteome of a cell. Cells are lysed and purified using antibody based affinity purification followed by digestion and identification using an HPLC coupled to a mass spectrometer. In my studies, I looked at the interaction networks of several AD related genes (Apolipoprotein E, Clusterin variant 1 and 2, Low-density lipoprotein receptor, Phosphatidylinositol binding clathrin assembly protein, Alpha-synuclein and Platelet-activating factor receptor) and an endosomal recycling pathway involved in cholesterol metabolism (Eps15 homology domain 1,2 and 4, Proprotein convertase subtilisin/kexin type 9 and Low-density lipoprotein receptor). Several novel and existing interactors were identified and these interactions were validated using co-immunopurification, which could be the basis for future research.

Proteomics

Alzheimer's Disease

Apolipoprotein E

Clusterin

PICALM

Synuclein

Low-density lipoprotein receptor

Platelet activating factor receptor

affinity purification