FUNCTIONALIZED POLYMERIC MEMBRANES FOR BIOSEPARATION AND BIOCATALYSIS

Datta, Saurav

01 January 2007

Functionalized polymeric membrane based techniques are becoming increasingly popular in biotechnology, food and pharmaceutical industries due to their versatility and hydrodynamic benefits over traditional materials and methods. This research work has been directed towards the development of functionalized polymeric membranes, extensive experimental and theoretical analyses of some of the fundamental aspects of accessibility, membrane fouling and enzyme catalysis, and applications in affinity based bioseparation and biocatalysis. In this research work, the impact of different types of functionalization techniques, such as functionalization of different membrane materials, covalent and electrostatic immobilization, on interaction of various biomolecules and active sites in membrane has been studied in detail. Avidin was used as model biomolecule, and covalently immobilized within acyl anhydride derivatized nylon based membrane. Quantification of the accessibility of covalently immobilized avidin sites was carried out by model biotinylated probe molecules, such as biotin 4-amidobenzoic acid and biotinylated-BSA. This study has been further extended to separate and purify a target protein, HIV-Tat, from a complex mixture of proteins (97-99 % unwanted protein) using avidin-biotin affinity interaction. It has been demonstrated that covalent immobilization of avidin in membranes reduces the accessibility of active sites for probe molecules. Accessibility decreases further for the biotinylated target protein present in the mixture of other unwanted proteins. Affinity based membrane separation of proteins is also associated with decrease in permeate flux due to fouling in membrane structure. Fouling in the membrane has been discussed by analyzing the characteristics of adsorbed protein layer in membrane. In order to improve the accessibility and fouling behavior of affinity separation of Tat protein, a pre-filtration step has been introduced prior to affinity separation. Significant enhancement in accessibility and reduction in fouling has been observed for pre-filtered cases as it removes unwanted proteins prior to affinity interaction. Contribution of the pre-filtration step in reduction of fouling has been elucidated by simple model equations. Improvement in accessibility and fouling behavior reflects in higher separation efficiency (protein recovery) and lower processing time for the pre-filtered cases. Quality of membrane purified Tat protein was examined by different analytical techniques, such as SDS-PAGE, Western Blot and biotin analysis, and then compared with that purified by traditional packed-bead column chromatography. It has been demonstrated that membrane based technique was able to isolate superior quality of pure monomeric Tat protein compare to column chromatographic technique. The other study carried out as a part of this dissertation, has involved development of high capacity, highly active, stable and reusable functionalized membrane domains for electrostatic immobilization of enzymes. Glucose oxidase (GOX) was used as a model enzyme to study the oxidation of glucose to gluconic acid and hydrogen peroxide under convective flow condition. Two different approaches of functionalization of membranes have been presented. In the first approach, alternative electrostatic attachment of cationic and anionic polyelectrolytes was carried out using Layer-By-Layer (LBL) assembly technique within a functionalized nylon based membrane. In the second one, a hydrophobic PVDF membrane was functionalized by in-situ polymerization of acrylic acid. Kinetics of glucose oxidation, effect of pH and flow rate on the activity of GOX was discussed. A comparative study was presented between the activity of free GOX, electrostatically immobilized GOX and covalently immobilized GOX, along with the advantage of convective mode of operation over soaking mode. A novel study has also been conducted on detachment and reattachment of GOX in the same membrane matrix. Further study has been directed towards implementation of the above mentioned immobilized enzymatic system for oxidative dechlorination of chloro-organics. A first time attempt was made to use a 2-stack functionalized membranes system for simultaneous enzymatic production of hydrogen peroxide in first membrane, and oxidative dechlorination of 2, 4, 6-trichlorophenol (TCP) in the Fe+2 immobilized (by ion exchange) second membrane by Fenton reaction. The technique was efficient in destruction of TCP as evident from the overall dechlorination of 70-80 %. This technique provides additional benefit of reusing the same membrane matrices by reattaching fresh GOX and Fe+2.

Functionalized Membranes

Affinity Based Bioseparation

HIV-TAT Protein

Biocatalysis

Glucose Oxidase

Chemical Engineering

THE ROLE OF LONG NON-CODING RNAS (LNCRNAS) IN NEURONAL SURVIVAL AND BEHAVIOR

Torkzaban, Bahareh, 0000-0003-2757-0751

January 2020

Neuronal homeostasis is an essential process to protect neurons from over/under-stimulation driven from systematic changes such as synapsis plasticity or tissue damage. Functional stability in neurons relays on the homeostatic plasticity that its disturbance causes irreversible injuries. Hence, a large body of studies elaborated to investigate the underlying mechanism for changes in synaptic connectivity and neuronal function. HIV-1 Tat (Transactivation of transcription), is a well-established neurotoxic protein, released by HIV-1 infected cells in the brain and disturbs neuronal homeostasis. The effects of Tat have been addressed in numerous studies investigating the molecular events associated with neuronal cell survival and death. The emergence of lncRNAs as critical players in disease etiology placed them in the spotlight to study pathogenesis of human diseases. Due to its capacity to modulate host transcriptome, HIV-1 Tat protein has been subjected to increasing genome-wide examinations. This study showed that exposing primary rat neurons to Tat resulted in the up-regulation of an uncharacterized long-non-coding RNA (lncRNA), LOC102549805 (lncRNA-U1). Evidence exists that increased expression of lncRNA-U1 in neurons disrupts bioenergetic pathways by dysregulating homeostasis of Ca2+, mitigating mitochondrial oxygen reduction, and decreasing ATP production leading to mitochondrial impairment in neurons. These changes were associated with imbalances in autophagy and apoptosis pathways via the Tat-mediated lncRNA-U1 induction. Additionally, this study showed the ability of Tat to modulate the expression of the neuropeptide B/W receptor 1 (NPBWR1) gene via the up-regulation of lncRNA-U1. Collectively, my results identified the Tat-mediated lncRNA-U1 elevation disturbs neuronal homeostasis. Our observations of lncRNA-U1 knock-down experiments indicated the novel lncRNA LOC102549805 (U1) as a viable therapeutic target to prevent HIV-1 Tat neurotoxicity. / Biology

Neurosciences

Molecular Biology

Physiology

Hand

Hiv-1

Lncrna

Neuronal Homeostasis

Neuronal Survival

Tat Protein

Das vollständige HIV-1 Tat Protein überquert Lipidmembranen? Einfluss des positiven Ladungsclusters und des N-terminalen Bereichs / Does the HIV-1 tat protein translocate across lipid membranes? Influence of positive charge cluster and N-terminal domain

Boll, Annegret

06 July 2011

No description available.

500 Naturwissenschaften

Chemistry

HIV-1 Tat Protein

Lipidmembranen

Protein-Membran-Wechselwirkung

Translokation

positiver Ladungscluster

Konfokalmikroskopie

HIV-1 Tat protein

lipid membranes

protein membrane interaction

translocation

positive charge cluster

confocal microscopy

42.12

Étude des mécanismes moléculaires régulant l'expression de la protéine TAT du virus de l'immunodéficience humaine, au niveau de la production de ses ARN messagers et de leur traduction / Study of molecular mechanisms regulating the expression of tat protein of immunodeficiency human virus at the production of its messenger RNA and their translation

Khoury, Georges

10 December 2012

La protéine Tat du VIH-1 est essentielle à la multiplication virale. Elle permet la transactivation de la transcription et, par ses propriétés apoptotiques, elle participe à la pathologie SIDA. D'où l'importance d'étudier les mécanismes régulant sa production. L'épissage alternatif de l'ARN du VIH-1, en particulier, l'utilisation des sites accepteurs d'épissage A3 et A7 est nécessaire pour la production des ARNm tat. L'utilisation du site A3 est fortement régulée par des éléments agissant en cis contenus dans une structure tige-boucle SLS3A3 située en aval du site A3. En purifiant les complexes RNP formés en extrait nucléaire sur un segment de l'ARN viral renfermant le site A3, et en analysant par spectrométrie de masse les protéines contenues dans ces complexes, nous avons pu mettre en évidence la fixation d'une protéine inhibitrice de l'utilisation du site A3, la protéine DAZAP1. Sur la base d'un ensemble de données antérieures du laboratoire et de nouvelles données que j'ai obtenues, nous avons montré que la protéine SRSF7, sans doute en synergie avec SRSF1, limite la fixation de DAZAP1 et active l'épissage au site A3. Nous avons aussi montré que la protéine virale Tat exerce un rétro-contrôle négatif au niveau de la production de l?ARNm tat, ceci en limitant l'activation du site A3 par SRSF7. La partie apicale de la structure tige-boucle SLS3A3 (motif B) est très conservée dans les souches de VIH-1. L'équipe d'E Guittet a déterminé sa structure 3D par RMN. La conformation de sa boucle terminale est caractéristique des structures tige-boucle reconnues par les protéines à domaines dsRBD (double stranded RNA Binding Domain). J'ai pu confirmer cette hypothèse en purifiant les complexes formés par le motif B en extrait nucléaire. Nous avons ainsi pu montrer que la protéine kinase PKR, qui joue chez l'Homme un rôle majeur dans la réponse à une infection virale, est un partenaire du motif B. Par utilisation de sondes chimiques de la structure 2D de l'ARN, j'ai pu montrer que la structure tige-boucle SLS3A3, contenant le codon d'initiation de l'ORF Tat, est présente dans l'ARNm tat1. Nous avons alors développé un système visant à étudier les mécanismes de régulation de l'initiation de la traduction de la protéine Tat. Par l'emploi d'une construction bicistronique, j'ai pu confirmer l'existence d'une activité IRES dans la région 5'UTRtat1 de l'ARNm tat1 et définir deux segments ayant cette activité. Des résultats préliminaires obtenus avec une construction bicistronique, nous ont permis de commencer à tester l'effet de différentes protéines SR et hnRNP sur l'activité de ces IRES / HIV-1 Tat protein is essential for viral replication. It allows the transcription of full-length viral RNAs, and due to its apoptotic properties it contributes to the AIDS disease. Hence, it is important to study the mechanisms regulating its production. Alternative splicing of the HIV-1 RNA, in particular, the use of acceptor sites A3 and A7 is required for tat mRNA production. Splicing at site A3 is highly regulated by cis-acting elements contained in a stem-loop structure SLS3A3, located downstream from site A3. By purifying RNP complexes formed in nuclear extract on a segment of the viral RNA containing site A3 followed by mass spectrometry analysis, we were able to highlight the binding of a new inhibitory protein, DAZAP1. Based on a set of ancient laboratory data and new results that I obtained, we have shown that SRSF7 protein, probably in synergy with SRSF1, limits the binding of DAZAP1 and splicing activation at site A3. We also showed that the viral protein Tat exerts a negative feedback control on tat mRNA production by restricting splicing activation of site A3 by SRSF7. The apical part of the stem-loop structure SLS3A3 (B motif) is highly conserved among HIV-1 strains. E Guittet team determined its 3D structure by NMR. The conformation of this apical loop is characteristic of stem-loop structures recognized by dsRBD proteins (double-stranded RNA binding domain). I was able to confirm this hypothesis by purifying RNP complexes formed by the B motif in nuclear extract. Thus, we have shown that the RNA dependent protein kinase (PKR), which plays in humans a major role in response to viral infection, is a partner of the B motif. By using chemical probes specific of the 2D structure of RNAs, I showed that the stem-loop structure SLS3A3 that contains the initiation codon of Tat is present in tat1 mRNA. We then developed a system to study the mechanisms regulating the initiation of translation of Tat protein. By using a bicistronic construct, I was able to confirm the existence of IRES activity in the 5?UTRtat1 region of tat1 mRNA, and define two segments that contain this activity. Preliminary results obtained with a bicistronic construct allowed us to begin testing the effect of different SR and hnRNP proteins on the activity of the IRES

VIH-1

Protéine Tat

Épissage

Protéines SR et hnRNP

Traduction

Protéine PKR

HIV-1

Tat protein

Splicing

SR and hnRNP proteins

Translation

PKR

572.6

Études fonctionnelles et structurales de protéines rétrovirales, Gag du FIV et Tat du VIH-1, à des fins thérapeutiques et vaccinales / Functional and structural studies of retroviral proteins, FIV Gag and HIV-1 Tat, for therapeutic and vaccine purposes

Serriere, Jennifer

09 October 2012

Depuis sa découverte il y a plus de 30 ans, le Virus de l’Immunodéficience Humaine est à l’origine d’une importante mortalité dans le monde. De par la difficulté de tester l’efficacité de formulations thérapeutiques et/ou vaccinales directement chez l’homme, des études d’infections modèles du VIH, comme celle du Virus de l’Immunodéficience Féline (FIV), ont été entreprises ces dernières années. Au-delà de son intérêt vétérinaire, l’étude du FIV représente un avantage important pour trouver un moyen de contrôler les infections par les lentivirus tel que le VIH. Elle peut permettre de développer et surtout de tester l’efficacité des vaccins et/ou thérapies spécifiques chez le chat, dont le SIDA mime les symptômes et les modifications hématologiques rencontrés chez l’homme. Ce manuscrit s’est intéressé à l’étude structurale de deux familles de protéines virales de ces virus, les protéines lentivirales précoces (protéine Tat du VIH) et tardives (domaines Capside CA et Matrice MA de Gag du FIV). L’étude structurale de ces protéines et leur compréhension fonctionnelle au sein de l’hôte pourront à l’avenir ouvrir de nouvelles voies thérapeutiques et/ou vaccinales contre les lentivirus, palliant ainsi les problèmes existants de résistances virales / Since its discovery 30 years ago, the Human Immunodeficiency Virus is the cause of an important mortality worldwide. Because of the difficulty to test the efficiency of therapeutical and/or vaccinal formulations directly in humans, studies of models of HIV infections, such as the Feline Immunodeficiency Virus (FIV), have been performed in recent years. In addition to its veterinary interest, the study of FIV is an important issue to find a way to control infections by lentiviruses such as HIV. It can help to develop and test the efficiency of specific therapies and/or vaccines for cats, where AIDS mimics the symptoms and hematologic changes observed in humans. This manuscript describes the structural study of two types of viral proteins of these viruses, early lentiviral proteins (HIV Tat protein) and late lentiviral proteins (CA capsid and MA Matrix domains of FIV Gag). The structural study of these proteins and their functional understanding into the host will open new therapeutic and/or vaccine strategies against these lentiviruses in the future, in order to overcome the existing problems of viral resistance

Rétrovirus

VIH

FIV

Protéine de Capside

Protéine de Matrice

Polyprotéine Gag

Protéine Tat

Cristallographie aux rayons X

Retrovirus

HIV

FIV

Capsid protein

Matrix protein

Gag polyprotein

Tat protein

X-ray crystallography

616.979