Analysis of Clp1-dependent UPR modulation in Ustilago maydis

Pinter, Niko

06 June 2019

No description available.

570

Ustilago maydis

UPR

unfolded protein response

SPP

signal peptide peptidase

Cib1

Clp1

Spp1

ERAD

ER-associated degradation

RNAseq

ChIPseq

Biologie (PPN619462639)

Antigens derived from the mucin MUC1 : Solution and solid-phase synthesis of saccharides, peptides and glycopeptides

Pudelko, Maciej

January 2008

Mucin is a term used to describe a large family of heavily glycosylated proteins which are present on the surfaces of secretory epithelial cells and are overexpressed by many carcinomas. Membrane-bound mucin MUC1 is of special interest. Its backbone consists of repeating units of twenty amino acids with five potential glycosylation sites. These sites are expanded to structures like the T (Galβ(1->3)GalNAcα-Ser/Thr) and Tn (GalNAcα-Ser/Thr) antigens by the action of various glycosyltransferases. In different types of carcinomas these epitopes are being terminated by sialic acid residues to form among others: 2,3-sialyl-T and sialyl-Tn structures due to the elevated levels of different sialyltransferases. Solid-phase synthesis of the selected antigens derived from the mucin MUC1 has been developed and optimized. A chemoenzymatic approach has been used to effectively prepare 2,3-sialyl-T and 2,6-sialyl-Tn glycopeptides. The formation of intramolecular sialic acid lactones in presence of acetic acid was investigated. The stability of lactones formed from 2,3-sialyl-T towards water was studied using NMR spectroscopy and it appeared that 1''->2' lactone displayed remarkable strength to hydrolysis and it was suggested as a candidate for cancer vaccine. Gel-phase 19F NMR spectroscopy is known to be a very good tool to characterize resin-bound products using fluorinated protecting groups and linker molecules. The hydrophobic peptide LLLLTVLTV, which is a fragment from the MUC1 signal sequence, was prepared using solid-phase synthesis according to a modified Fmoc protocol with more active coupling reagent, stronger base, and the isopropylidene dipeptide Fmoc-Leu-Thr-(ΨMe,Mepro)-OH. Gel-phase 19F NMR spectroscopy was used to evaluate peptide chain aggregation and coupling and deprotection efficiency. A carbamate linker strategy proved to be effective in solid-phase synthesis of serine-based neoglycolipids with terminal amino functionality. Neoglycolipids were covalently bound to secondary amines in microtiter plates using squaric acid ester methodology. These arrays have potential to study the interactions between carbohydrates and e.g. proteins and microbes. The new fluorinated α-amino protective group [1-(4-(4-fluorophenyl)-2,6-dioxocyclohexylidene)ethyl] Fde was developed. This group is cleaved with hydrazine in DMF solution. By using amino acids protected with this group, it was possible to quantify the efficiency of peptide coupling using gel-phase 19F NMR spectroscopy.

Lactones

glycopeptides

signal peptide

neoglycolipid arrays

solid-phase synthesis

MUC1

gel-phase 19F NMR spectroscopy

fluorinated alpha-amino protective group

Organic chemistry

Organisk kemi

The quest for a general co-crystallization strategy for macromolecules: lessons on the use of chaperones for membrane protein crystallization

Johnson, Jennifer Leigh

21 September 2015

Crystallization is often a major bottleneck to macromolecular structure determination. This is particularly true for membrane proteins, which have hydrophobic surfaces that cannot readily form crystal contacts. Of the roughly 109,000 protein structures in the PDB, only about 539 represent unique membrane proteins, despite immense interest in membrane proteins from both a biological and therapeutic standpoint. Membrane protein crystallization has been facilitated by the development of new detergents, lipidic cubic phase methods, soluble protein chimeras, and non-covalent protein complexes. The design process of protein fusion constructs and non-covalent antibody fragments specific for each target membrane protein, however, is costly and time-consuming. An improved, more general method of membrane protein co-crystallization is needed. This dissertation details the development of two approaches for cost-effective non-covalent crystallization chaperones: (1) Engineered hypercrystallizable Fab antibody fragment with high affinity for EYMPME (EE epitope), which form complexes with EE-tagged soluble and membrane proteins. (2) Engineered monomeric streptavidin (mSA2) for complexation with biotinylated membrane proteins. Both methods are generalizable through insertion of a short epitope into a surface-exposed loop of a membrane protein by site directed mutagenesis. Crystallization trials of representative chaperone-membrane protein complexes and possible difficulties with the approach are discussed.

Fab fragment

Fabry disease

Crystallography

Membrane protein

Antibody fragment

Crystallization chaperone

Monomeric streptavidin

Signal peptide peptidase

Intimin

Alpha-galactosidase A

Pharmacological chaperone

Increased expression of proteins in CHO cells by identification of signal peptides for improved secretion of translated proteins

Strannermyr, Malin

January 2018

Main purpose of this study was to increase protein expression in Chinese hamster ovary (CHO) cells by improving protein secretion of translated proteins. The goal was to find signal peptides from the screening of signal peptide libraries for improvement of protein secretion using a CHO-cell express selection system. Biopharmaceutical products, proteins such as monoclonal antibodies (mAbs), are most commonly produced using mammalian expression systems such as the expression in CHO cells. The posttranslational modifications of the proteins being expressed in CHO cells are similar to the expressional modifications in human cells, why the CHO cells are suitable for production of proteins used for human therapy. The expression of proteins in the cell is a complex mechanism, fundamentally depending on the DNA sequences in the cell nucleus. Secretion of translated proteins has been showed to be a bottleneck when improving expression. Secretion is initiated by the signal peptide, a n-terminal prolongation of the protein that is recognized by a signal recognition particle (SRP) when being translated by the ribosome. The sequence and structure of the signal peptide has been proved to affect secretion and altering the signal peptide could improve secretion even when changing signal peptide between different species. Designing variants of the signal peptides and analyzing protein expression might lead to improvements of the construct design and more protein produced from the cells, which would save time, money and material for the producer. To construct plasmids containing the gene of interest (GOI) and different signal peptides, several gene cloning methods were used. The plasmids were amplified using Escherichia coli (E. coli) transformation. The constructs were expressed by transfection into the CHO cell genome, and expression were analyzed using flow cytometry. When analyzing expression of a Fc-fusion protein with 5 different signal peptides, the signal peptide Azurocidin is the one showing highest expression levels in this study. In addition, IgG kapa and Albumin signal peptides did not show as high protein expression levels, even if they were better than the L1d and H5b signal peptides. Since signal peptides are exchangeable between proteins and species, it might be that Azurocidin is improving secretion and protein expression with other proteins than Fc-fusion proteins which would be an interesting aspect for further studies. When altering signal peptides with library sequences, the experimental challenges were crucial for the protein expression results and due to these issues, no library sequence could be seen to conquer others when it comes to protein expression levels. Transfection and cultivation procedures needs to be studied and improved before being able to draw conclusions about which signal peptide library sequences that might improve secretion and increase the protein expression.

Chinese hamster ovary

signal peptide

protein expression

plasmid

library

gene

Fc-fusion

monoclonal antibody

E. coli

flow cytometry

transfection

transformation

Industrial Biotechnology

Industriell bioteknik

Genetic Transformation of Switchgrass (Panicum Virgatum L.) with Endoglucanase Gene and Characterization of Plants with Endoglucanase Transgene

Dere, Madhavi Suresh

24 August 2012

As a warm season grass native to the North American continent, switchgrass is considered as one of the most promising biofuel crops in the USA. It is a C4 plant that makes it energy efficient. Switchgrass has a deep root system that allows it to grow on marginal land with low water and nutrient input. Switchgrass has been used as a forage crop and its use for biofuel will not affect food security. Biofuels are more environment-friendly than fossil fuels as they do not produce net greenhouse gases. However, the problem of high cost of production per unit for biofuel has to be overcome if we want to replace fossil fuels with biofuels. One of the major factors related to the high cost of biofuel are the expensive cellulase enzymes used in the pretreatment of feedstock. Endoglucanase is the key enzyme used for breaking down cellulose before fermentation. Currently, endoglucanase is produced from engineered E. coli or yeast strains, which is still expensive for enzyme production and purification of industrial scales. Expression of endoglucanase in plants has been previously reported. However, there are no reports of transgenic switchgrass producing cellulase enzyme. In this study, the catalytic domain of beta-endoglucanase gene was codon-optimized and synthesized based on the cDNA cloned from Hypocrea jecorina. Rice RuBisCO small subunit targeting signal peptide was fused to the N-terminus of the beta-endoglucanase gene, which was expected to target the fusion protein to chloroplast. This subcellular compartment targeting could minimize negative effects on cell function and plant development. The endoglucanase gene was cloned with maize ubiquitin promoter in a modified binary vector pCambia 1305-2 and transformed into switchgrass genotype HR8 by using Agrobacterium tumefaciens. In this study, I generated five independent transgenic switchgrass lines and they were confirmed by growing on the selection agent hygromycin, GUS assay, PCR amplification, southern blotting hybridization, for the presence of hygromycin and endoglucanase genes. However, based on RT-PCR analysis, only two transgenic lines were confirmed to produce mRNAs of the endoglucanase gene. These two transgenic lines were further characterized for their agronomic traits and the chlorophyll contents. Our results suggested that expression of endoglucanase in switchgrass could reduce chlorophyll content and affect plant development. Nevertheless, in this study, we demonstrated that a fungal endoglucanase gene could be expressed in switchgrass transgenic plants, though the gene expression level and the subcellular localization need to be carefully regulated in order to minimize the toxic effect of endoglucanase on plant cells. / Master of Science

genetic transformation

hygromycin

GUS assay

Panicum virgatum

Switchgrass

chloroplast

RuBisCO

signal peptide

Hypocrea jecorina

endoglucanase

TAIL PCR

pSQ5

activation tagging

GFP

Fluoreszenzmikroskopische Untersuchungen zur Interaktion G-Protein gekoppelter Rezeptoren

Teichmann, Anke

11 January 2013

G-Protein gekoppelte Rezeptoren (GPCR) sind Rezeptoren mit 7 Transmembrandomänen. Nach Bindung ihres Liganden werden über die Kopplung von G-Proteinen rezeptorspezifisch Signaltransduktionswege aktiviert. Ein bislang nicht ausreichend verstandener Prozess für die Funktion von GPCR ist deren Oligomerisierung. Für einige GPCR konnte gezeigt werden, dass die Oligomerisierung den Rezeptortransport und/oder die Dynamik der Rezeptoraktivierung moduliert. Dabei ist noch nicht aufgeklärt, ob die entsprechenden GPCR ausschließlich als Oligomere oder in einem bestimmten Monomer-Dimer Verhältnis (M/D) vorliegen und welcher Dynamik dieses Verhältnis unterliegt. In dieser Arbeit wurde die Homo-Oligomerisierung des Endothelin-B-Rezeptors (ETBR), des Vasopressin-V2-Rezeptors (V2R) und der Corticotropin-Releasing-Factor-Rezeptoren Typ 1 (CRF1R) und Typ 2(a) (CRF2(a)R) analysiert. Im Anschluss an diese Untersuchungen wurde das M/D der GPCR bestimmt. Zur Detektion der Protein-Protein Interaktionen wurden die biophysikalischen Methoden Fluoreszenz-Resonanz-Energie-Transfer (FRET) und Fluoreszenz-Kreuzkorrelations-Spektroskopie (FCCS) eingesetzt. Mit Hilfe der FCCS konnte das spezifische M/D der GPCR bestimmt und über FRET ein Unterschied in der Interaktions-Dynamik zwischen den GPCR der Familie 1 (am Bsp. des V2R) und der Familie 2 (am Bsp. des CRF1R) ermittelt werden. Des Weiteren lieferten die genutzten Methoden den Nachweis, dass der zum CRF1R homologe CRF2(a)R ausschließlich als Monomer vorliegt. Zusätzliche Untersuchungen an Signalpeptidmutanten des CRF1R und des CRF2(a)R weisen darauf hin, dass das Pseudosignalpeptid des CRF2(a)R, welches bislang einzigartig in der Superfamilie der GPCR ist, die Oligomerisierung des Rezeptors verhindert. Zusätzlich zu diesen neuen Daten konnte in dieser Arbeit erstmals ein Zusammenhang zwischen Rezeptorinteraktion und G-Protein Selektivität für den CRF1R und den CRF2(a)R festgestellt werden / The heptahelical G protein-coupled receptors (GPCRs) are important drug targets. Following activation by their ligands, they exert their function via the binding of G proteins and activation of specific signal transduction cascades. To date, the functional significance of the oligomerization of GPCRs is not completely understood. For some GPCRs it could be shown that the oligomerization modulates receptor transport and/or the dynamics of receptor activation. Most importantly, it is not clear whether the GPCRs exist exclusively as oligomers or in a certain monomer-dimer ratio (M/D) or whether a given ratio is dynamic. In this work, the homo-oligomerization of the endothelin-B-receptor (ETBR), the vasopressin-V2-receptor (V2R) and the corticotropin-releasing-factor-receptors type 1 (CRF1R) and type 2(a) (CRF2(a)R) was analysed. In addition, the M/D of these GPCRs was determined. For the detection of the protein-protein interactions, the following biophysical methods were established: fluorescence-resonance-energy-transfer (FRET) and fluorescence-crosscorrelation-spectroscopy (FCCS). With the help of FCCS, a specific M/D could be determined for each of the GPCRs. Using FRET, differences in the interaction dynamics between family 1 (V2R) and family 2 GPCRs (CRF1R) could be described. Moreover, it was experimentally verified that the CRF2(a)R is exclusively expressed as a monomer, in contrast to the other GPCRs and even the highly homologous CRF1R. Using signal peptide swap experiments, it could be demonstrated that the N-terminal pseudo signal peptide of the CRF2(a)R, which is so far unique in the superfamily of GPCRs, prevents oligomerization of the receptor. In addition, a relation of receptor oligomerization and G protein coupling selectivity was established for the CRF1R and the CRF2(a)R which is novel for the GPCR protein family.

G-Protein gekoppelte Rezeptoren

FRET

Protein-Protein Interaktionen

FCCS

Monomer-Dimer Verhältnis

Signalpeptide

G protein-coupled receptors

FRET

proteine-proteine interactions

FCCS

monomer-dimer ratio

signal peptide

570 Biowissenschaften, Biologie

32 Biologie

WE 5240

ddc:570

Expression of human α-N-Acetylglucosaminidase in Sf9 insect cells: effect of cryptic splice site removal and native secretion-signaling peptide addition.

Jantzen, Roni Rebecca

15 August 2011

Human α-N-Acetylglucosaminidase (Naglu) is a lysosomal acid hydrolase implicated in tthe rare metabolic storage disorder known as mucopolysaccharidosis type IIIB (MPS IIIB; also Sanfilippo syndrome B). Absence of this enzyme results in cytotoxic accumulation of heparan sulphate in the central nervous system, causing mental retardation and a shortened lifespan. Enzyme replacement therapy is not currently effective to treat neurological symptoms due to the inability of exogenous Naglu to access the brain. This laboratory uses a Spodoptera frugiperda (Sf9) insect cell system to express Naglu fused to a synthetic protein transduction domain with the intent to facilitate delivery of Naglu across the blood-brain barrier. The project described herein may be broken down into three main sections. Firstly, the impact of two cryptic splice sites on Naglu expression levels was analyzed in both transiently expressing Sf9 cultures and stably selected cell lines. Secondly, the effectiveness of the native Naglu secretion-signaling peptide in the Sf9 system was examined. Finally, purification of a Naglu fusion protein from suspension culture medium was performed using hydrophobic interaction chromatographic techniques. The ultimate goal of this research is to develop an efficient system for economical, large-scale production of a human recombinant Naglu fusion protein that has the potential to be successfully used for enzyme replacement therapy to treat MPS IIIB. / Graduate

α-N-Acetylglucosaminidase

Sf9

insect cells

secretion signal peptide

lysosomal enzyme

mucopolysaccharidosis

MPS IIIB

sanfilippo syndrome

protein expression

protein transduction domain

splice site

cryptic splicing

site-directed mutagenesis

Naglu

cDNA

protein purification

hydrophobic interaction chromatography

FPLC

recombinant human protein

fusion protein

Tat-PTD

The intramembrane proteases SPPL2a and SPPL2b regulate the homeostasis of selected SNARE proteins

Ballin, Moritz, Griep, Wolfram, Patel, Mehul, Karl, Martin, Mentrup, Torben, Rivera-Monroy, Jhon, Foo, Brian, Schappach, Blanche, Schröder, Bernd

22 February 2024

Signal peptide peptidase (SPP) and SPP-like (SPPL) aspartyl intramembrane proteases are known to contribute to sequential processing of type II-oriented membrane proteins referred to as regulated intramembrane proteolysis. The ER-resident family members SPP and SPPL2c were shown to also cleave tail-anchored proteins, including selected SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) proteins facilitating membrane fusion events. Here, we analysed whether the related SPPL2a and SPPL2b proteases, which localise to the endocytic or late secretory pathway, are also able to process SNARE proteins. Therefore, we screened 18 SNARE proteins for cleavage by SPPL2a and SPPL2b based on cellular co-expression assays, of which the proteins VAMP1, VAMP2, VAMP3 and VAMP4 were processed by SPPL2a/b demonstrating the capability of these two proteases to proteolyse tail-anchored proteins. Cleavage of the four SNARE proteins was scrutinised at the endogenous level upon SPPL2a/b inhibition in different cell lines as well as by analysing VAMP1-4 levels in tissues and primary cells of SPPL2a/b double-deficient (dKO) mice. Loss of SPPL2a/b activity resulted in an accumulation of VAMP1-4 in a cell type- and tissue-dependent manner, identifying these proteins as SPPL2a/b substrates validated in vivo. Therefore, we propose that SPPL2a/b control cellular levels of VAMP1-4 by initiating the degradation of these proteins, which might impact cellular trafficking.

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/570

ddc:570

info:eu-repo/classification/ddc/610

ddc:610