Efficacy of enzyme replacement therapy in α-manosidosis mice / Enzyme Theraphie im α-manosidisis knock-out Mäusen

Prieto Roces, Diego

01 September 2005

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

α-mannosidose

Enzyme Theraphie

knock-out Mäusen

α-mannosidose

Enzyme Replacement Therapy

knock-out mouse model

35.7

SXJ 300: Oligosaccharide {Biochemie}

Charakterizace distribuce a dynamiky antigen-prezentujících buněk na modelu MHC II-EGFP knock-in myši / Characterization of the distribution and dynamics of the antigen-presenting cells using MHC II-EGFP knock-in mouse model

Pačes, Jan

January 2016

Results of recent studies indicate that dendritic cells are capable of transporting commensal intestinal bacteria into the mammary glands, which ultimately leads to their occurrence in breast milk. We have therefore decided to evaluate the phenotype of immunologically relevant antigen presenting cells (APCs) present in the mammary glands and the small intestine, respectively and perform a comparison study. We also studied plasticity of these populations during lactation. In situ immunodetection and flow cytometry methods were used to determine phenotype. We succeeded in optimising the methods for preparation of samples for flow cytometry and microscopy. We thoroughly tested protocols for 3D visualisation of APC populations and quantitative image analysis for correlation with flow cytometry, further optimization is nevertheless needed. We found out that during lactation large numbers of MHC II+ cells cluster around the alveoli and milk ducts. These cells are of a distinctly dendritic shape and their phenotype does not correspond to the APCs in the surrounding tissue. A pronounced increase of APC cells in the mammary glands between the fourth and sixth days of lactation was observed, with the majority of these cells expressing the CD103 antigen typical for cell populations of immune cells of the...

Charakterizace imunitního systém s využitím MHC II/ EGFP knock-in myši / Studying immune system using MHC II/ EGFP knock-in mouse

Zadražil, Zdeněk

January 2012

The immune system is essential for keeping the integrity of multicellular organisms. We were able to make a step forward in studying the complex immune reactions in mammals in vivo and/ or in situ using the major histocompatibility complex (MHC) class II/ enhanced green fluorescent protein (EGFP) knock-in mouse model. Due to the EGFP visualization of MHC II expressing cells we were able to observe antigen presenting cells, which are essential for the onset of immune responses, in their natural environment. Thus, we report some original features of the immune system. We have identified MHC II+ cell clusters with unknown, probably unique function, in the intestine. We have also described MHC II+ cell migration to the lactating mammary gland and tested few hypotheses about the role of this phenomenon for the development of the mammary gland, milk secretion or infant immune system establishment. Lastly, we observed residential macrophages in the cornea. The presence of APCs in the cornea is a very contradictory issue due to the fact that cornea is an immunologically privileged tissue and therefore harbors special immune features. key words: antigen presenting cells (APC), major histocompatibility complex class II (MHC II), enhanced green fluorescent protein (EGFP), immune system, knock-in mouse model

Characterization of biological role of FKBP51-HSP90 protein-protein interactions in novel knock-in mouse model / Undersökning av den biologiska rollen av FKBP51-HSP90 protein-interaktion i en ny transgen musmodell

Xie, Shaoxun

January 2022

Värmechockprotein 90 kDa (HSP90) bildar ett anmärkningsvärt komplicerat nätverk med en mängd olika cochaperones. Komplexet av FK506-bindande protein 51 kDa (FKBP51) och HSP90 förmedlar proteinveckning och funktion, främjar tau aggregation vid Alzheimers sjukdom och påverkar stressrelaterade störningar, fetma, typ två-diabetes, etc. I samarbete med den molekylära chaperonen HSP90, FKBP51 har nyligen föreslagits som ett lovande terapeutiskt mål för Alzheimers sjukdom (AD). Således skapades knock-in-musen med punktmutationer i tetratricopeptide repeat (TPR) domänen av FKBP51, vilket gör den oförmögen att interagera med HSP90, för att undersöka de potentiella terapeutiska målen för behandling av dessa sjukdomar. Glukokortikoidreceptorn (GR) fungerade traditionellt som utgångspunkten för de initiala studierna av FKBP51-funktion och mekanism som kan stimuleras av den syntetiska glukokortikoiden dexametason (Dexa). Det primära målet med projektet är att förstå den biologiska betydelsen av FKBP51-HSP90 interaktioner. Det är oklart hur FKBP51-mutation påverkar protein-protein-interaktionen och glukokortikoidsignalering. Här analyserades embryonala fibroblaster (MEF) isolerade från vildtyp och FKBP51 mutant mus med avseende på proteinlokalisering, proteinuttryck och genuttryck. Även om ingen säker skillnad mellan vildtyp och mutantmöss sågs i Dexa-medierad glukokortikoidsignalering, förekommer de posttranslationella modifieringarna (PTM) vid exponering för Dexa-behandling av FKBP51 i vildtypmöss i en signifikant högre utsträckning än i Fkbp51mute-möss.Fosforyleringsmodifieringen av FKBP51 antogs initialt och bekräftades av fosforyleringsanrikningsstrategier. Bekräftelse har dock ännu inte erhållits. / Heat shock protein 90 kDa (HSP90) forms a remarkably complicated network with a variety of cochaperones. The complex of FK506-binding protein 51 kDa (FKBP51) and HSP90 mediates protein folding and function, promoting tau aggregation in Alzheimer's disease and influencing stress-related disorders, obesity, type two diabetes, etc. In collaboration with the molecular chaperone HSP90, FKBP51 has recently been proposed as a promising therapeutic target for Alzheimer's disease (AD). Thus, the knock-in mouse harboring point mutations in the tetratricopeptide repeat (TPR) domain of FKBP51 rendering it unable to interact with HSP90 were created to investigate the potential therapeutic targets for the treatment of these diseases. Glucocorticoid receptor (GR) traditionally served as the starting point for the initial studies of FKBP51 function and mechanism which can be stimulated by the synthetic glucocorticoid, dexamethasone (Dexa). The primary goal of the project is to comprehend the biological significance of FKBP51-HSP90 interactions. It is unclear how FKBP51 mutation affects the protein-protein interaction and glucocorticoid signaling. Here, embryonic fibroblasts (MEFs) isolated from wildtype and FKBP51 mutant mouse were analyzed with respect to protein localization, protein expression, and gene expression. Although no certain difference between wildtype and mutant mice was seen in Dexa-mediated glucocorticoid signaling, the post-translational modifications (PTMs) in exposure to Dexa treatment of FKBP51 occur in wildtype mice to a significantly higher extent than in Fkbp51mute mice. The phosphorylation modification of FKBP51 was initially hypothesized and confirmed by phosphorylation enrichment strategies. However, confirmation has not yet been obtained.

FK506-binding protein 51kDa

heat shock protein 90kDa

glucocorticoid signaling pathway

dexamethasone

knock-in mouse model

FK506-bindande protein 51kDa

värmechockprotein 90kDa

glucocorticoiders signalvägar

dexamethasone

knock-in musmodell