Production et caractérisation de la prohormone convertase 13

Rabah, Nadia.

January 2007

Biopeptides are synthesised as large pro-protein precursors that have to undergo proteolytic cleavage at positively charged amino acids (Lys and Arg) in order to become active. This cleavage is mediated by a family of subtilin/kexin related calcium dependent serine endoproteinases named prohormone convertases. The present thesis focuses on the endocrine member of the family named PC1/3. PC1/3 is expressed in the regulated secretory pathway of endocrine and neuroendocrine cells, where it was shown to activate various peptide hormones such as proopiomelanocortin (POMC), pro-insulin and pro-glucagon. PC1/3 is synthesized as a large precursor containing a signal peptide, a propeptide, a catalytic domain, a P domain and a C-terminal domain. The activation of the enzyme requires the sequential removal of the signal peptide, the propeptide and ultimately the C-terminal domain. / The structural characterisation of the enzyme is compromised by the difficulty in producing a sufficient amount of recombinant PC1/3. In this thesis it is clearly demonstrated that the production of PC1/3 using Baculovirus technology can be greatly improved by modifying the expression vector in insect cells (Spodoptera frugiperda). In addition, the intracoelemic injection of insect larvae (Tricoplusia ni) with the Baculovirus encoding the recombinant PC1/3 is shown to be a very efficient method for the production of a large amount of prohormone convertases. / It was previously demonstrated that the propeptide is essential for the folding of the enzyme and act as a tight binding inhibitor of the enzyme until the latter reaches the appropriate compartment for substrate cleavage. To assess the role of certain residues within the propeptide in the inhibition of the cognate enzyme, a mutational analysis by alanine scan was conducted. The results demonstrate that the substitution of a single amino acid can affect markedly the inhibition behavior, potency and selectivity of the propeptide towards the enzyme. Moreover, this mutational analysis allowed the first experimental mapping of the sequence involved in propeptide degradation once its function is achieved. / However, PC1/3 also possesses a C-terminal domain which must also be cleaved to allow the full activation of the enzyme. Previous studies showed that this domain is implicated in the sorting of the enzyme to secretory granules. In addition, over expression experiments showed that the C-terminal domain can inhibit the cleavage of certain substrates by PC1/3. The results, presented here, suggest that the CT-peptide acts as a non-essential activator of PC1/3, in vitro, which adds a supplementary level of complexity to the activation process of the enzyme. / Finally, based upon our results, it can be proposed that PC1/3 is a very complex enzyme capable of controlling its enzymatic activity through the coordinate action of its various domains. This exceptional mode of self-regulation is unique among all protease families.

Production et caractérisation de la prohormone convertase 13

Rabah, Nadia.

January 2007

No description available.

Structure-function analysis of the prosegment and the cysteine-rich domain of the proprotein convertase PC5A its interaction with TIMP-2 /

Nour, Nadia.

January 1900

Thesis (Ph.D.). / Title from title page of PDF (viewed 2008/01/30). Written for the Dept. of Medicine, Division of Experimental Medicine. Includes bibliographical references.

Proislet amyloid polypeptide (proIAPP) : impaired processing is an important factor in early amyloidogenesis in type 2 diabetes /

Paulsson, Johan F.,

January 2006

Diss. (sammanfattning) Linköping : Linköpings universitet, 2006. / Härtill 4 uppsatser.

Development of protein-based inhibitor and structure-function analysis of the mammalian proprotein convertase SKI-1/S1 P

Pullikotil, Philomena

January 2007

Note:

Serine Proteinase Inhibitors.

Investigação de mutações no gene PCSK9 em famílias com diagnóstico clínico de Hipercolesterolemia Familiar / Investigation on the PCSK9 gene mutations in families with clinic diagnosis of Familial Hypercholesterolemia

Honorato, Aldrina Laura da Silva Costa

08 October 2018

A hipercolesterolemia familiar (HF) é uma alteração de origem genética comum que pode se manifestar clinicamente desde o nascimento e provoca um aumento nos níveis plasmáticos de LDL-colesterol (LDL-c), xantomas e doença coronária prematura. Sua detecção e tratamento precoce reduzem a morbidade e mortalidade coronária. A identificação e rastreamento em cascata familiar usando níveis de LDL-c e detecção genética é a estratégia mais aconselhável e rentável para descoberta de novos casos. O tratamento crônico com estatinas reduz o risco cardiovascular da população em geral, contudo, estudos clínicos com estatinas revelam risco cardiovascular residual mesmo após correção das concentrações de LDL-c. Com o surgimento de novas drogas e mais recentemente um inibidor da enzima pró-proteína convertase subtilisina/kexina tipo 9 (PCSK9), este estudo enfatizou na investigação específica para aqueles acometidos com defeitos genéticos nessa enzima, por ser de frequência ainda mais rara e pouco estudada, necessitando de melhor investigação na população em estudo a fim de rastrear a ocorrência de mutações patológicas na PCSK9. O objetivo desse estudo foi identificar e caracterizar mutações e/ou deleções patológicas no gene PCSK9 em pacientes com Hipercolesterolemia Familiar provenientes do Hospital das Clínicas de Ribeirão Preto da FMRP/USP selecionados para o teste genético. Foi feito o rastreamento de mutações pelo método Hight Resolution Melting (HRM), de forma prática, rápida e eficiente, onde mutações detectadas foram seqüenciadas. Foram identificadas 7 mutações não patogênicas, caracterizando que a população estudada não apresenta Hipercolesterolemia Familiar associada a mutações no gene PCSK9, fato que não exclui o diagnóstico por outros defeitos genéticas associados a doença. / Familial hypercholesterolemia (FH) is an alteration of common genetic origin that can manifest clinically from birth and which causes an increase in the LDL-cholesterol plasma levels (LDL-c), xanthomas and premature coronary disease. Its early detection and treatment reduce morbidity and coronary mortality. The identification and tracking in familial cascade using levels of LDL-c and genetic detection is the most advisable and profitable strategy to find new cases. The chronic treatment with statins reduces the cardiovascular risk in the population in general. However, clinic studies on statins show a residual cardiovascular risk even after the correction of LDL-c concentrations. With the appearance of new drugs and, more recently, of a proprotein convertase subtilisin/kexin type 9 enzyme inhibitor (PCSK9), this study highlighted the specific investigation for those stricken by genetic defects in this enzyme, once it is even rarer and understudied and needs further investigation in the study\'s population aiming at tracking the occurrence of a pathological mutation in the PCSK9. This study aimed at identifying and characterizing mutations and/or pathological deletions in the PCSK9 gene in patients with Familial Hypercholesterolemia from the RPMS/USP Ribeirão Preto Clinical Hospital which were selected for the genetic test. We performed the mutation tracking by using the High Resolution Melting (HRM) method in a practical, fast and efficient way, where the mutations detected were sequenced. We identified 7 non-pathogenic mutations, showing that the population studied does not present Familial Hypercholesterolemia associated to mutations in the PCSK9 gene, which doesn\'t exclude the diagnosis by other genetic defects associated to the disease.

Cardiovascular Diseases

Doenças Cardiovasculares

Familial Hypercholesterolemia

Hipercolesterolemia Familiar

lipoproteína de baixa densidade

low density lipoprotein,

Investigação de mutações no gene PCSK9 em famílias com diagnóstico clínico de Hipercolesterolemia Familiar / Investigation on the PCSK9 gene mutations in families with clinic diagnosis of Familial Hypercholesterolemia

Aldrina Laura da Silva Costa Honorato

08 October 2018

A hipercolesterolemia familiar (HF) é uma alteração de origem genética comum que pode se manifestar clinicamente desde o nascimento e provoca um aumento nos níveis plasmáticos de LDL-colesterol (LDL-c), xantomas e doença coronária prematura. Sua detecção e tratamento precoce reduzem a morbidade e mortalidade coronária. A identificação e rastreamento em cascata familiar usando níveis de LDL-c e detecção genética é a estratégia mais aconselhável e rentável para descoberta de novos casos. O tratamento crônico com estatinas reduz o risco cardiovascular da população em geral, contudo, estudos clínicos com estatinas revelam risco cardiovascular residual mesmo após correção das concentrações de LDL-c. Com o surgimento de novas drogas e mais recentemente um inibidor da enzima pró-proteína convertase subtilisina/kexina tipo 9 (PCSK9), este estudo enfatizou na investigação específica para aqueles acometidos com defeitos genéticos nessa enzima, por ser de frequência ainda mais rara e pouco estudada, necessitando de melhor investigação na população em estudo a fim de rastrear a ocorrência de mutações patológicas na PCSK9. O objetivo desse estudo foi identificar e caracterizar mutações e/ou deleções patológicas no gene PCSK9 em pacientes com Hipercolesterolemia Familiar provenientes do Hospital das Clínicas de Ribeirão Preto da FMRP/USP selecionados para o teste genético. Foi feito o rastreamento de mutações pelo método Hight Resolution Melting (HRM), de forma prática, rápida e eficiente, onde mutações detectadas foram seqüenciadas. Foram identificadas 7 mutações não patogênicas, caracterizando que a população estudada não apresenta Hipercolesterolemia Familiar associada a mutações no gene PCSK9, fato que não exclui o diagnóstico por outros defeitos genéticas associados a doença. / Familial hypercholesterolemia (FH) is an alteration of common genetic origin that can manifest clinically from birth and which causes an increase in the LDL-cholesterol plasma levels (LDL-c), xanthomas and premature coronary disease. Its early detection and treatment reduce morbidity and coronary mortality. The identification and tracking in familial cascade using levels of LDL-c and genetic detection is the most advisable and profitable strategy to find new cases. The chronic treatment with statins reduces the cardiovascular risk in the population in general. However, clinic studies on statins show a residual cardiovascular risk even after the correction of LDL-c concentrations. With the appearance of new drugs and, more recently, of a proprotein convertase subtilisin/kexin type 9 enzyme inhibitor (PCSK9), this study highlighted the specific investigation for those stricken by genetic defects in this enzyme, once it is even rarer and understudied and needs further investigation in the study\'s population aiming at tracking the occurrence of a pathological mutation in the PCSK9. This study aimed at identifying and characterizing mutations and/or pathological deletions in the PCSK9 gene in patients with Familial Hypercholesterolemia from the RPMS/USP Ribeirão Preto Clinical Hospital which were selected for the genetic test. We performed the mutation tracking by using the High Resolution Melting (HRM) method in a practical, fast and efficient way, where the mutations detected were sequenced. We identified 7 non-pathogenic mutations, showing that the population studied does not present Familial Hypercholesterolemia associated to mutations in the PCSK9 gene, which doesn\'t exclude the diagnosis by other genetic defects associated to the disease.

Doenças Cardiovasculares

Hipercolesterolemia Familiar

lipoproteína de baixa densidade

Cardiovascular Diseases

Familial Hypercholesterolemia

low density lipoprotein,

The Regulation of PCSK9 Structure and Function Through Lipoprotein Interactions

Sarkar, Samantha Khadija

25 April 2019

Proprotein convertase subtilisin / kexin type 9 (PCSK9) is a negative regulator of the low-density lipoprotein receptor, and PCSK9 inhibition has become an important cholesterol-lowering therapeutic strategy. PCSK9 also associates with LDL particles, and evidence suggests that the activity of PCSK9 may be regulated by LDL binding. We have investigated the biochemistry of the interaction between PCSK9 and lipoproteins. Through mutagenesis and in-vitro binding assays, we found conserved motifs in the PCSK9 N-terminus that play a role in LDL binding. Through secondary structure studies using circular dichroism and computational modelling, we determined that the N-terminal region of the PCSK9 prodomain undergoes an environment-dependent structural shift that affects the ability of PCSK9 to bind LDL. We also found that the commonly found loss-of-function polymorphism R46L is capable of modulating this structural shift. Importantly, we found a surface-exposed region of the PCSK9 prodomain that maps a cluster of gain-of-function mutations (L108R, S127R, and D129G) that severely disrupt LDL binding. Through gel shift assays and density gradient centrifugation, we observed that PCSK9 shows remodeling-dependent ability to bind different classes of lipoprotein particles in vitro, binding strongly to LDL and IDL but showing barely detectable association to VLDL. Further, in human plasma, we found that lipoprotein-bound populations of PCSK9 shifted in response to differences in lipoprotein profiles between normolipidemic and hypercholesterolemic or hypertriglyceridemic subjects. Overall, elucidation of how lipoproteins regulate PCSK9 activity will reveal new targets for designing cholesterol-lowering therapeutics.

PCSK9

LDL

cholesterol

VLDL

IDL

lipoprotein

proprotein convertase

biochemistry

mutagenesis

hypercholesterolemia

hypertriglyceridemia

atherosclerosis

cardiovascular disease

Functional analysis of the MERS-coronavirus spike protein

Gierer, Stefanie

26 June 2014

Zehn Jahre nach dem Ausbruch des Severe Acute Respiratory Syndrome Coronavirus, SARS-CoV, ist ein neues Betacoronavirus, das Middle East Respiratory Syndrome Coronavirus, MERS-CoV, auf der arabischen Halbinsel entdeckt worden. Seine anhaltende Ausbreitung stellt eine Bedrohung für die öffentliche Gesundheit dar. Das Spike (S) Protein der Coronaviren vermittelt den viralen Eintritt in Wirtszellen und bestimmt wesentlich den viralen Tropismus und die virale Pathogenese. Das Verständnis der Determinanten des MERS-CoV Spike (MERS-S)-vermittelnden Eintritts in Zellen könnte daher wichtige Einblicke in die MERS-CoV-Biologie liefern und war somit das erste Ziel dieser Arbeit. Um den Eintritt in die Zelle zu ermöglichen, muss das Coronavirus S-Protein durch Wirtszellproteasen aktiviert werden, welche potentielle Ziele für die therapeutischen Intervention darstellen. Daher sollten im zweiten Ziel dieser Arbeit Proteasen identifiziert werden, die MERS-S aktivieren. Das S-Protein ist das Hauptangriffsziel neutralisierender Antikörper und experimentelle Systeme zur S-Analyse können für die Diagnostik eingesetzt werden. Das letzte Ziel dieser Arbeit war es daher, die MERS-CoV Seroprävalenz in Saudi Arabien zu ermitteln. Es wurde ein lentivirales Vektorensystem etabliert, welches die Analyse des MERS-S-getriebenen Zelleintritts ermöglicht. Mit Hilfe dieses Systems konnte gezeigt werden, dass MERS-S den Eintritt in ein breites Spektrum humaner Zelllinien, wie Lungen-, Nieren- und Darmzellen vermittelt, was mit der klinischen Manifestation von MERS einhergeht. Der Wirtszelleintritt war unabhängig von bereits beschriebenen Coronavirus Eintrittsrezeptoren, wurde jedoch durch die endosomale Cysteinprotease Cathepsin L und die Transmembranserinprotease TMPRSS2 gefördert. Im Gegensatz dazu war die Aktivität von Proprotein Konvertasen für den S-Protein-vermittelnden Eintritt entbehrlich. Schließlich zeigten Neutralisationstests, dass Seren von Patienten aus der östlichen Provinz Saudi Arabiens, die zwischen 2010-2011 und 2012 entnommen wurden, keine MERS-S-neutralisierenden Antikörper enthielten. Dies deutet darauf hin, dass MERS-CoV-Infektionen vor dem Ausbruch 2012 nur selten vorkamen. Die gewonnen Ergebnisse tragen wesentlich zum Verständnis des MERS-CoV-Eintritts in Zellen bei und liefern wichtige Informationen zur MERS-CoV-Epidemiologie. Weiterhin könnte die Beobachtung, dass der Protease-Inhibitor Camostat, der für den Einsatz im Menschen zugelassen ist (in Japan), TMPRSS2 blockiert und damit den MERS-CoV Eintritt inhibiert, helfen, Behandlungsstrategien für MERS-Patienten zu etablieren.

570

Biologie (PPN619462639)

Role of the proprotein convertase subtilisin/kexin 5 gene in high-density lipoprotein metabolism potential implications for atherosclerotic cardiovascular disease development /

Iatan, Iulia.

January 1900

Thesis (M.Sc.). / Written for the Dept. of Biochemistry. Title from title page of PDF (viewed 2009/06/25). Includes bibliographical references.