Your search keyword '"Jihad El Andari"' showing total 21 results

1. Treatment of infantile-onset Pompe disease in a rat model with muscle-directed AAV gene therapy

Author

Sergio Muñoz, Joan Bertolin, Veronica Jimenez, Maria Luisa Jaén, Miquel Garcia, Anna Pujol, Laia Vilà, Victor Sacristan, Elena Barbon, Giuseppe Ronzitti, Jihad El Andari, Warut Tulalamba, Quang Hong Pham, Jesus Ruberte, Thierry VandenDriessche, Marinee K. Chuah, Dirk Grimm, Federico Mingozzi, and Fatima Bosch

Subjects

Glycogen metabolism, Myopathies, Pompe disease, Rat model, Gene therapy, AAV, Internal medicine, RC31-1245

Abstract

Objective: Pompe disease (PD) is caused by deficiency of the lysosomal enzyme acid α-glucosidase (GAA), leading to progressive glycogen accumulation and severe myopathy with progressive muscle weakness. In the Infantile-Onset PD (IOPD), death generally occurs

Published

2024

2. High throughput screening of novel AAV capsids identifies variants for transduction of adult NSCs within the subventricular zone

Author

Lukas P.M. Kremer, Santiago Cerrizuela, Sascha Dehler, Thomas Stiehl, Jonas Weinmann, Heike Abendroth, Susanne Kleber, Alexander Laure, Jihad El Andari, Simon Anders, Anna Marciniak-Czochra, Dirk Grimm, and Ana Martin-Villalba

Subjects

neural stem cells, ventricular-subventricular zone, v-SVZ, adeno-associated virus, AAV, gene therapy, Genetics, QH426-470, Cytology, QH573-671

Abstract

The adult mammalian brain entails a reservoir of neural stem cells (NSCs) generating glial cells and neurons. However, NSCs become increasingly quiescent with age, which hampers their regenerative capacity. New means are therefore required to genetically modify adult NSCs for re-enabling endogenous brain repair. Recombinant adeno-associated viruses (AAVs) are ideal gene-therapy vectors due to an excellent safety profile and high transduction efficiency. We thus conducted a high-throughput screening of 177 intraventricularly injected barcoded AAV variants profiled by RNA sequencing. Quantification of barcoded AAV mRNAs identified two synthetic capsids, peptide-modified derivative of wild-type AAV9 (AAV9_A2) and peptide-modified derivative of wild-type AAV1 (AAV1_P5), both of which transduce active and quiescent NSCs. Further optimization of AAV1_P5 by judicious selection of the promoter and dose of injected viral genomes enabled labeling of 30%–60% of the NSC compartment, which was validated by fluorescence-activated cell sorting (FACS) analyses and single-cell RNA sequencing. Importantly, transduced NSCs readily produced neurons. The present study identifies AAV variants with a high regional tropism toward the ventricular-subventricular zone (v-SVZ) with high efficiency in targeting adult NSCs, thereby paving the way for preclinical testing of regenerative gene therapy.

Published

2021

3. Molecular Signature of Astrocytes for Gene Delivery by the Synthetic Adeno‐Associated Viral Vector rAAV9P1

Author

Amelie Bauer, Matteo Puglisi, Dennis Nagl, Joel A Schick, Thomas Werner, Andreas Klingl, Jihad El Andari, Veit Hornung, Horst Kessler, Magdalena Götz, Dirk Grimm, and Ruth Brack‐Werner

Subjects

AAV, Adeno‐associated virus, astrocytes, integrins, receptor profile, vectors, Science

Abstract

Abstract Astrocytes have crucial functions in the central nervous system (CNS) and are major players in many CNS diseases. Research on astrocyte‐centered diseases requires efficient and well‐characterized gene transfer vectors. Vectors derived from the Adeno‐associated virus serotype 9 (AAV9) target astrocytes in the brains of rodents and nonhuman primates. A recombinant (r) synthetic peptide‐displaying AAV9 variant, rAAV9P1, that efficiently and selectively transduces cultured human astrocytes, has been described previously. Here, it is shown that rAAV9P1 retains astrocyte‐targeting properties upon intravenous injection in mice. Detailed analysis of putative receptors on human astrocytes shows that rAAV9P1 utilizes integrin subunits αv, β8, and either β3 or β5 as well as the AAV receptor AAVR. This receptor pattern is distinct from that of vectors derived from wildtype AAV2 or AAV9. Furthermore, a CRISPR/Cas9 genome‐wide knockout screening revealed the involvement of several astrocyte‐associated intracellular signaling pathways in the transduction of human astrocytes by rAAV9P1. This study delineates the unique receptor and intracellular pathway signatures utilized by rAAV9P1 for targeting human astrocytes. These results enhance the understanding of the transduction biology of synthetic rAAV vectors for astrocytes and can promote the development of advanced astrocyte‐selective gene delivery vehicles for research and clinical applications.

Published

2022

4. Identification of a myotropic AAV by massively parallel in vivo evaluation of barcoded capsid variants

Author

Jonas Weinmann, Sabrina Weis, Josefine Sippel, Warut Tulalamba, Anca Remes, Jihad El Andari, Anne-Kathrin Herrmann, Quang H. Pham, Christopher Borowski, Susanne Hille, Tanja Schönberger, Norbert Frey, Martin Lenter, Thierry VandenDriessche, Oliver J. Müller, Marinee K. Chuah, Thorsten Lamla, and Dirk Grimm

Subjects

Science

Abstract

Adeno-associated virus is the basis of many gene therapies and gene transfer vectors. Here the authors report a pipeline to enable side-by-side comparison of pre-selected capsids in a high throughput manner.

Published

2020

5. Novel Chimeric Gene Therapy Vectors Based on Adeno-Associated Virus and Four Different Mammalian Bocaviruses

Author

Julia Fakhiri, Marc A. Schneider, Jens Puschhof, Megan Stanifer, Verena Schildgen, Stefan Holderbach, Yannik Voss, Jihad El Andari, Oliver Schildgen, Steeve Boulant, Michael Meister, Hans Clevers, Ziying Yan, Jianming Qiu, and Dirk Grimm

Subjects

Genetics, QH426-470, Cytology, QH573-671

Abstract

Parvoviruses are highly attractive templates for the engineering of safe, efficient, and specific gene therapy vectors, as best exemplified by adeno-associated virus (AAV). Another candidate that currently garners increasing attention is human bocavirus 1 (HBoV1). Notably, HBoV1 capsids can cross-package recombinant (r)AAV2 genomes, yielding rAAV2/HBoV1 chimeras that specifically transduce polarized human airway epithelia (pHAEs). Here, we largely expanded the repertoire of rAAV/BoV chimeras, by assembling packaging plasmids encoding the capsid genes of four additional primate bocaviruses, HBoV2–4 and GBoV (Gorilla BoV). Capsid protein expression and efficient rAAV cross-packaging were validated by immunoblotting and qPCR, respectively. Interestingly, not only HBoV1 but also HBoV4 and GBoV transduced pHAEs as well as primary human lung organoids. Flow cytometry analysis of pHAEs revealed distinct cellular specificities between the BoV isolates, with HBoV1 targeting ciliated, club, and KRT5+ basal cells, whereas HBoV4 showed a preference for KRT5+ basal cells. Surprisingly, primary human hepatocytes, skeletal muscle cells, and T cells were also highly amenable to rAAV/BoV transduction. Finally, we adapted our pipeline for AAV capsid gene shuffling to all five BoV isolates. Collectively, our chimeric rAAV/BoV vectors and bocaviral capsid library represent valuable new resources to dissect BoV biology and to breed unique gene therapy vectors. Keywords: adeno-associated virus, AAV, bocavirus, BoV, capsid engineering

Published

2019

6. Induction of Hepatitis E Virus Anti-ORF3 Antibodies from Systemic Administration of a Muscle-Specific Adeno-Associated Virus (AAV) Vector

Author

Lars Maurer, Jihad El Andari, Kleopatra Rapti, Laura Spreyer, Eike Steinmann, Dirk Grimm, and Viet Loan Dao Thi

Subjects

adeno-associated virus, AAV, hepatitis E virus, HEV, vector-based vaccine, neutralisation, Microbiology, QR1-502

Abstract

The hepatitis E virus (HEV) is a major global health problem, leading to large outbreaks in the developing world and chronic infections in the developed world. HEV is a non-enveloped virus, which circulates in the blood in a quasi-enveloped form. The quasi-envelope protects HEV particles from neutralising anti-capsid antibodies in the serum; however, most vaccine approaches are designed to induce an immune response against the HEV capsid. In this study, we explored systemic in vivo administration of a novel synthetic and myotropic Adeno-associated virus vector (AAVMYO3) to express the small HEV phosphoprotein ORF3 (found on quasi-enveloped HEV) in the musculature of mice, resulting in the robust and dose-dependent formation of anti-ORF3 antibodies. Neutralisation assays using the serum of ORF3 AAV-transduced mice showed a modest inhibitory effect on the infection of quasi-enveloped HEV in vivo, comparable to previously characterised anti-ORF3 antibodies used as a control. The novel AAVMYO3 capsid used in this study can serve as a versatile platform for the continued development of vector-based vaccines against HEV and other infectious agents, which could complement traditional vaccines akin to the current positive experience with SARS-CoV-2.

Published

2022

7. Bacillus subtilis Bactofilins Are Essential for Flagellar Hook- and Filament Assembly and Dynamically Localize into Structures of Less than 100 nm Diameter underneath the Cell Membrane.

Author

Jihad El Andari, Florian Altegoer, Gert Bange, and Peter L Graumann

Subjects

Medicine, Science

Abstract

Bactofilins are a widely conserved protein family implicated in cell shape maintenance and in bacterial motility. We show that the bactofilins BacE and BacF from Bacillus subtilis are essential for motility. The proteins are required for the establishment of flagellar hook- and filament structures, but apparently not for the formation of basal bodies. Functional YFP fusions to BacE and to BacF localize as discrete assemblies at the B. subtilis cell membrane, and have a diameter of 60 to 70 nm. BacF assemblies are relatively static, and partially colocalize with flagellar basal bodies, while BacE assemblies are fewer per cell than those of BacF and are highly mobile. Tracking of BacE foci showed that the assemblies arrest at a single point for a few hundred milliseconds, showing that a putative interaction with flagellar structures would be transient and fast. When overexpressed or expressed in a heterologous cell system, bactofilins can form filamentous structures, and also form multimers as purified proteins. Our data reveal a propensity for bactofilins to form filaments, however, in B. subtilis cells, bactofilins assemble into defined size assemblies that show a dynamic localization pattern and play a role in flagellar assembly.

Published

2015

8. Intranasal administration of Acinetobacter lwoffii in a murine model of asthma induces <scp>IL</scp> ‐6‐mediated protection associated with cecal microbiota changes

Author

Bilal Alashkar Alhamwe, Zhan Gao, Fahd Alhamdan, Hani Harb, Matthieu Pichene, Abel Garnier, Jihad El Andari, Andreas Kaufmann, Peter L. Graumann, Dörthe Kesper, Christian Daviaud, Holger Garn, Jörg Tost, Daniel P. Potaczek, Martin J. Blaser, and Harald Renz

Subjects

Immunology, Immunology and Allergy

Abstract

Early-life exposure to certain environmental bacteria including Acinetobacter lwoffii (AL) has been implicated in protection from chronic inflammatory diseases including asthma later in life. However, the underlying mechanisms at the immune-microbe interface remain largely unknown.The effects of repeated intranasal AL exposure on local and systemic innate immune responses were investigated in wild-type and Il6The asthma preventive effect of AL was confirmed in the lung. Repeated intranasal AL administration triggered a proinflammatory immune response particularly characterized by elevated levels of IL-6, and consequently, IL-6 induced IL-10 production in CD4These experiments provide a novel mechanism of Acinetobacter lwoffii-induced asthma protection operating through IL-6-mediated epigenetic activation of IL-10 production and with associated effects on the intestinal microbiome.

Published

2022

9. The dose makes the poison: next generation AAV vectors can save the day

Author

Jihad El Andari and Julia Fakhiri

Subjects

Computer science, Real-time computing, The dose makes the poison, General Economics, Econometrics and Finance

Published

2021

10. High throughput screening of novel AAV capsids identifies variants for transduction of adult NSCs within the subventricular zone

Author

Simon Anders, Dirk Grimm, Anna Marciniak-Czochra, Jonas Weinmann, Santiago Cerrizuela, Alexander Laure, Jihad El Andari, Thomas Stiehl, Susanne Kleber, Ana Martin-Villalba, Lukas P.M. Kremer, Heike Abendroth, and Sascha Dehler

Subjects

Genetic enhancement, Subventricular zone, ventricular-subventricular zone, adeno-associated virus, Biology, QH426-470, medicine.disease_cause, Transduction (genetics), v-SVZ, medicine, Genetics, Molecular Biology, Adeno-associated virus, Tropism, neural stem cells, single-cell RNA-seq, QH573-671, Neurogenesis, AAV, Cell sorting, gene therapy, Neural stem cell, Cell biology, adult neurogenesis, medicine.anatomical_structure, nervous system, Molecular Medicine, Original Article, Cytology

Abstract

The adult mammalian brain entails a reservoir of neural stem cells (NSCs) generating glial cells and neurons. However, NSCs become increasingly quiescent with age, which hampers their regenerative capacity. New means are therefore required to genetically modify adult NSCs for re-enabling endogenous brain repair. Recombinant adeno-associated viruses (AAVs) are ideal gene-therapy vectors due to an excellent safety profile and high transduction efficiency. We thus conducted a high-throughput screening of 177 intraventricularly injected barcoded AAV variants profiled by RNA sequencing. Quantification of barcoded AAV mRNAs identified two synthetic capsids, peptide-modified derivative of wild-type AAV9 (AAV9_A2) and peptide-modified derivative of wild-type AAV1 (AAV1_P5), both of which transduce active and quiescent NSCs. Further optimization of AAV1_P5 by judicious selection of the promoter and dose of injected viral genomes enabled labeling of 30%–60% of the NSC compartment, which was validated by fluorescence-activated cell sorting (FACS) analyses and single-cell RNA sequencing. Importantly, transduced NSCs readily produced neurons. The present study identifies AAV variants with a high regional tropism toward the ventricular-subventricular zone (v-SVZ) with high efficiency in targeting adult NSCs, thereby paving the way for preclinical testing of regenerative gene therapy., Graphical abstract, High-throughput screening of 177 AAV capsid variants identifies variants with high tropism for the adult subventricular zone. Single-cell transcriptomics shows that lineages arising from transduced stem cells are comparable to non-transduced ones. Mathematical modeling and flow cytometry indicate transduction of 30%−60% stem cells within the subventricular zone.

Published

2021

11. Identification of a myotropic AAV by massively parallel in vivo evaluation of barcoded capsid variants

Author

Dirk Grimm, Josefine Sippel, Quang H Pham, Marinee Chuah, Martin Lenter, Christopher Borowski, Susanne Hille, Oliver J. Müller, Norbert Frey, Jihad El Andari, Jonas Weinmann, Warut Tulalamba, Anca Remes, Thorsten Lamla, Sabrina Weis, Anne-Kathrin Herrmann, Thierry VandenDriessche, Tanja Schönberger, Division of Gene Therapy & Regenerative Medicine, Basic (bio-) Medical Sciences, and Faculty of Medicine and Pharmacy

Subjects

0301 basic medicine, Genetic enhancement, viruses, Mutant, gene transfer vectors, General Physics and Astronomy, medicine.disease_cause, Adeno-Associated Virus, Mice, 0302 clinical medicine, Genomic library, Gene delivery, myotropic AAV, lcsh:Science, Adeno-associated virus, Mutation, Multidisciplinary, Muscles, High-Throughput Nucleotide Sequencing, DNA/RNA barcoding, Dependovirus, Multidisciplinary Sciences, barcoded capsid variants, in vivo, Capsid, Organ Specificity, 030220 oncology & carcinogenesis, Science & Technology - Other Topics, VECTORS, Female, reproductive medicine, Science, Genetic Vectors, Computational biology, Biology, GENE-TRANSFER, TRANSDUCTION, General Biochemistry, Genetics and Molecular Biology, Virus, Article, 03 medical and health sciences, Gene therapy, YIELDS, medicine, Animals, DNA Barcoding, Taxonomic, Humans, Gene Library, Science & Technology, RNA, Genetic Variation, General Chemistry, Genetic Therapy, Mice, Inbred C57BL, TROPISM, 030104 developmental biology, Capsid Proteins, lcsh:Q

Abstract

Adeno-associated virus (AAV) forms the basis for several commercial gene therapy products and for countless gene transfer vectors derived from natural or synthetic viral isolates that are under intense preclinical evaluation. Here, we report a versatile pipeline that enables the direct side-by-side comparison of pre-selected AAV capsids in high-throughput and in the same animal, by combining DNA/RNA barcoding with multiplexed next-generation sequencing. For validation, we create three independent libraries comprising 183 different AAV variants including widely used benchmarks and screened them in all major tissues in adult mice. Thereby, we discover a peptide-displaying AAV9 mutant called AAVMYO that exhibits superior efficiency and specificity in the musculature including skeletal muscle, heart and diaphragm following peripheral delivery, and that holds great potential for muscle gene therapy. Our comprehensive methodology is compatible with any capsids, targets and species, and will thus facilitate and accelerate the stratification of optimal AAV vectors for human gene therapy., Adeno-associated virus is the basis of many gene therapies and gene transfer vectors. Here the authors report a pipeline to enable side-by-side comparison of pre-selected capsids in a high throughput manner.

Published

2020

12. Loss of epigenetic information as a cause of mammalian aging

Author

Jae-Hyun Yang, Motoshi Hayano, Patrick T. Griffin, João A. Amorim, Michael S. Bonkowski, John K. Apostolides, Elias L. Salfati, Marco Blanchette, Elizabeth M. Munding, Mital Bhakta, Yap Ching Chew, Wei Guo, Xiaojing Yang, Sun Maybury-Lewis, Xiao Tian, Jaime M. Ross, Giuseppe Coppotelli, Margarita V. Meer, Ryan Rogers-Hammond, Daniel L. Vera, Yuancheng Ryan Lu, Jeffrey W. Pippin, Michael L. Creswell, Zhixun Dou, Caiyue Xu, Sarah J. Mitchell, Abhirup Das, Brendan L. O’Connell, Sachin Thakur, Alice E. Kane, Qiao Su, Yasuaki Mohri, Emi K. Nishimura, Laura Schaevitz, Neha Garg, Ana-Maria Balta, Meghan A. Rego, Meredith Gregory-Ksander, Tatjana C. Jakobs, Lei Zhong, Hiroko Wakimoto, Jihad El Andari, Dirk Grimm, Raul Mostoslavsky, Amy J. Wagers, Kazuo Tsubota, Stephen J. Bonasera, Carlos M. Palmeira, Jonathan G. Seidman, Christine E. Seidman, Norman S. Wolf, Jill A. Kreiling, John M. Sedivy, George F. Murphy, Richard E. Green, Benjamin A. Garcia, Shelley L. Berger, Philipp Oberdoerffer, Stuart J. Shankland, Vadim N. Gladyshev, Bruce R. Ksander, Andreas R. Pfenning, Luis A. Rajman, and David A. Sinclair

Subjects

General Biochemistry, Genetics and Molecular Biology

Published

2023

13. Induction of Hepatitis E Virus Anti-ORF3 Antibodies from Systemic Administration of a Muscle-Specific Adeno-Associated Virus (AAV) Vector

Author

Lars Maurer, Jihad El Andari, Kleopatra Rapti, Laura Spreyer, Eike Steinmann, Dirk Grimm, and Viet Loan Dao Thi

Subjects

Mice, Inbred BALB C, viruses, Muscles, Genetic Vectors, virus diseases, Dependovirus, digestive system diseases, Absorption, Physiological, Mice, Viral Proteins, Infectious Diseases, Virology, Hepatitis E virus, Animals, Female, adeno-associated virus, AAV, hepatitis E virus, HEV, vector-based vaccine, neutralisation, Hepatitis Antibodies

Abstract

The hepatitis E virus (HEV) is a major global health problem, leading to large outbreaks in the developing world and chronic infections in the developed world. HEV is a non-enveloped virus, which circulates in the blood in a quasi-enveloped form. The quasi-envelope protects HEV particles from neutralising anti-capsid antibodies in the serum; however, most vaccine approaches are designed to induce an immune response against the HEV capsid. In this study, we explored systemic in vivo administration of a novel synthetic and myotropic Adeno-associated virus vector (AAVMYO3) to express the small HEV phosphoprotein ORF3 (found on quasi-enveloped HEV) in the musculature of mice, resulting in the robust and dose-dependent formation of anti-ORF3 antibodies. Neutralisation assays using the serum of ORF3 AAV-transduced mice showed a modest inhibitory effect on the infection of quasi-enveloped HEV in vivo, comparable to previously characterised anti-ORF3 antibodies used as a control. The novel AAVMYO3 capsid used in this study can serve as a versatile platform for the continued development of vector-based vaccines against HEV and other infectious agents, which could complement traditional vaccines akin to the current positive experience with SARS-CoV-2.

Published

2021

14. Novel Chimeric Gene Therapy Vectors Based on Adeno-Associated Virus and Four Different Mammalian Bocaviruses

Author

Megan L. Stanifer, Hans Clevers, Steeve Boulant, Dirk Grimm, Jianming Qiu, Oliver Schildgen, Jens Puschhof, Stefan Holderbach, Verena Schildgen, Michael Meister, Julia Fakhiri, Marc A. Schneider, Ziying Yan, Jihad El Andari, Yannik Voss, and Hubrecht Institute for Developmental Biology and Stem Cell Research

Subjects

0301 basic medicine, lcsh:QH426-470, BoV, viruses, Chimeric gene, adeno-associated virus, Vectors in gene therapy, Biology, medicine.disease_cause, Virus, Article, bocavirus, capsid engineering, 03 medical and health sciences, Transduction (genetics), 0302 clinical medicine, Plasmid, Genetics, medicine, lcsh:QH573-671, Molecular Biology, Gene, Adeno-associated virus, lcsh:Cytology, AAV, Virology, lcsh:Genetics, 030104 developmental biology, Capsid, 030220 oncology & carcinogenesis, Molecular Medicine

Abstract

Parvoviruses are highly attractive templates for the engineering of safe, efficient, and specific gene therapy vectors, as best exemplified by adeno-associated virus (AAV). Another candidate that currently garners increasing attention is human bocavirus 1 (HBoV1). Notably, HBoV1 capsids can cross-package recombinant (r)AAV2 genomes, yielding rAAV2/HBoV1 chimeras that specifically transduce polarized human airway epithelia (pHAEs). Here, we largely expanded the repertoire of rAAV/BoV chimeras, by assembling packaging plasmids encoding the capsid genes of four additional primate bocaviruses, HBoV2–4 and GBoV (Gorilla BoV). Capsid protein expression and efficient rAAV cross-packaging were validated by immunoblotting and qPCR, respectively. Interestingly, not only HBoV1 but also HBoV4 and GBoV transduced pHAEs as well as primary human lung organoids. Flow cytometry analysis of pHAEs revealed distinct cellular specificities between the BoV isolates, with HBoV1 targeting ciliated, club, and KRT5+ basal cells, whereas HBoV4 showed a preference for KRT5+ basal cells. Surprisingly, primary human hepatocytes, skeletal muscle cells, and T cells were also highly amenable to rAAV/BoV transduction. Finally, we adapted our pipeline for AAV capsid gene shuffling to all five BoV isolates. Collectively, our chimeric rAAV/BoV vectors and bocaviral capsid library represent valuable new resources to dissect BoV biology and to breed unique gene therapy vectors. Keywords: adeno-associated virus, AAV, bocavirus, BoV, capsid engineering

Published

2019

15. DNA-binding directs the localization of a membrane-integrated receptor of the ToxR family

Author

Julia Schwarz, Peter L. Graumann, Thomas C. Rösch, Kirsten Jung, Jihad El Andari, Elisabeth Hoyer, and Sophie Brameyer

Subjects

Amino Acid Transport Systems, Medicine (miscellaneous), medicine.disease_cause, Time-Lapse Imaging, Article, Antiporters, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Bacterial Proteins, Cadaverine, Escherichia coli, medicine, Transcriptional regulation, Receptor, lcsh:QH301-705.5, Binding Sites, biology, Escherichia coli Proteins, Lysine, Cell Membrane, Hydrogen-Ion Concentration, biology.organism_classification, Cell biology, DNA-Binding Proteins, Luminescent Proteins, Transmembrane domain, Membrane, Lac Operon, Microscopy, Fluorescence, chemistry, lcsh:Biology (General), Cytoplasm, Trans-Activators, General Agricultural and Biological Sciences, DNA, Bacteria, Protein Binding, Transcription Factors

Abstract

All living cells have a large number of proteins that are anchored with one transmembrane helix in the cytoplasmic membrane. Almost nothing is known about their spatiotemporal organization in whole cells. Here we report on the localization and dynamics of one representative, the pH sensor and transcriptional regulator CadC in Escherichia coli. Fluorophore-tagged CadC was detectable as distinct cluster only when the receptor was activated by external stress, which results in DNA-binding. Clusters immediately disappeared under non-stress conditions. CadC variants that mimic the active state of CadC independent of environmental stimuli corroborated the correlation between CadC clustering and binding to the DNA, as did altering the number or location of the DNA-binding site(s) in whole cells. These studies reveal a novel diffusion-and-capture mechanism to organize a membrane-integrated receptor dependent on the DNA in a rod-shaped bacterium., Brameyer et al. identify a diffusion-and-capture mechanism responsible for the localization of the membrane integrated receptor and transcriptional activator CadC in E. coli. They find that external stress activates CadC, resulting in DNA-binding and cluster formation in the cytoplasmic membrane.

Published

2019

16. In vivo high-throughput screening of novel adeno-associated viral capsids targeting adult neural stem cells in the subventricular zone

Author

Lukas P.M. Kremer, Dirk Grimm, Jihad El Andari, Thomas Stiehl, Sascha Dehler, Ana Martin-Villalba, Simon Anders, Jonas Weinmann, Santiago Cerrizuela, Anna Marciniak-Czochra, Abendroth H, Laure A, and Susanne Kleber

Subjects

viruses, Genetic enhancement, Cell, RNA, Subventricular zone, Vectors in gene therapy, Biology, Neural stem cell, Cell biology, Transduction (genetics), medicine.anatomical_structure, nervous system, medicine, Tropism

Abstract

The adult mammalian brain entails a reservoir of neural stem cells (NSCs) generating glial cells and neurons. However, NSCs become increasingly quiescent with age, which hampers their regenerative capacity. New means are therefore required to genetically modify adult NSCs for re-enabling endogenous brain repair. Recombinant adeno-associated viruses (AAVs) are ideal gene therapy vectors due to an excellent safety profile and high transduction efficiency. We thus conducted a high-throughput screening of 177 intraventricularly injected barcoded AAV variants profiled by RNA sequencing. Quantification of barcoded AAV mRNAs identified two synthetic capsids, AAV9_A2 and AAV1_P5, both of which transduce active and quiescent NSCs. Further optimization of AAV1_P5 by judicious selection of promoter and dose of injected viral genomes enabled labeling of 30-60% of the NSC compartment, which was validated by FACS analyses and single cell RNA sequencing. Importantly, transduced NSC readily produced neurons. The present study identifies AAV variants with a high regional tropism towards the v-SVZ with high efficiency in targeting adult NSCs, thereby paving the way for preclinical testing of regenerative gene therapy.

Published

2021

17. Production, Processing, and Characterization of Synthetic AAV Gene Therapy Vectors

Author

Dirk Grimm and Jihad El Andari

Subjects

Downstream processing, Virus Cultivation, viruses, Genetic enhancement, Genetic Vectors, Gene Transfer Techniques, Gene transfer, General Medicine, Computational biology, Genetic Therapy, Vectors in gene therapy, Biology, Dependovirus, medicine.disease_cause, Applied Microbiology and Biotechnology, Viral vector, Capsid, Vector generation, medicine, Molecular Medicine, Humans, Capsid Proteins, Adeno-associated virus

Abstract

Over the last two decades, gene therapy vectors based on wild-type Adeno-associated viruses (AAV) are safe and efficacious in numerous clinical trials and are translated into three approved gene therapy products. Concomitantly, a large body of preclinical work has illustrated the power and potential of engineered synthetic AAV capsids that often excel in terms of an organ or cell specificity, the efficiency of in vitro or in vivo gene transfer, and/or reactivity with anti-AAV immune responses. In turn, this has created a demand for new, scalable, easy-to-implement, and plug-and-play platform processes that are compatible with the rapidly increasing range of AAV capsid variants. Here, the focus is on recent advances in methodologies for downstream processing and characterization of natural or synthetic AAV vectors, comprising different chromatography techniques and thermostability measurements. To illustrate the breadth of this portfolio, two chimeric capsids are used as representative examples that are derived through forward- or backwards-directed molecular evolution, namely, AAV-DJ and Anc80. Collectively, this ever-expanding arsenal of technologies promises to facilitate the development of the next AAV vector generation derived from synthetic capsids and to accelerate their manufacturing, and to thus boost the field of human gene therapy.

Published

2020

18. Distinct transduction of muscle tissue in mice after systemic delivery of AAVpo1 vectors

Author

Dirk Grimm, Warut Tulalamba, Marinee Chuah, Thierry VandenDriessche, Quang Hong Pham, Jihad El Andari, Jonas Weinmann, Basic (bio-) Medical Sciences, Faculty of Medicine and Pharmacy, and Division of Gene Therapy & Regenerative Medicine

Subjects

0301 basic medicine, Muscle tissue, Male, Genetic enhancement, Diaphragm, Genetic Vectors, Biology, Bioinformatics, Injections, Intramuscular, 03 medical and health sciences, Transduction (genetics), Mice, 0302 clinical medicine, Transduction, Genetic, Genetics, medicine, Animals, In patient, Molecular Biology, Gene, Tropism, Mice, Inbred ICR, Myocardium, Myocardium metabolism, Dependovirus, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Molecular Medicine, Intramuscular injection

Abstract

The human musculature is a promising and pivotal target for human gene therapy, owing to numerous diseases that affect this tissue and that are often monogenic, making them amenable to treatment and potentially cure on the genetic level. Particularly attractive would be the possibility to deliver clinically relevant DNA to muscle tissue from a minimally invasive, intravenous vector delivery. To date, this aim has been approximated by the use of Adeno-associated viruses (AAV) of different serotypes (rh.74, 8, 9) that are effective, but unfortunately not specific to the muscle and hence not ideal for use in patients. Here, we have thus studied the muscle tropism and activity of another AAV serotype, AAVpo1, that was previously isolated from pigs and found to efficiently transduce muscle following direct intramuscular injection in mice. The new data reported here substantiate the usefulness of AAVpo1 for muscle gene therapies by showing, for the first time, its ability to robustly transduce all major muscle tissues, including heart and diaphragm, from peripheral infusion. Importantly, in stark contrast to AAV9 that forms the basis for ongoing clinical gene therapy trials in the muscle, AAVpo1 is nearly completely detargeted from the liver, making it a very attractive and potentially safer option.

Published

2019

19. A Robust and All-Inclusive Pipeline for Shuffling of Adeno-Associated Viruses

Author

Ellen Wiedtke, Eike Kienle, Nina Schürmann, Anne-Kathrin Herrmann, Dominik Niopek, Christian Bender, Julia Botta, Stefanie Grosse, Dirk Grimm, and Jihad El Andari

Subjects

0106 biological sciences, Computer science, viruses, Genetic Vectors, Biomedical Engineering, Computational biology, medicine.disease_cause, 01 natural sciences, Biochemistry, Genetics and Molecular Biology (miscellaneous), law.invention, Evolution, Molecular, 03 medical and health sciences, chemistry.chemical_compound, Plasmid, law, 010608 biotechnology, medicine, Gene, Adeno-associated virus, 030304 developmental biology, 0303 health sciences, Shuffling, Gene Transfer Techniques, General Medicine, Dependovirus, DNA shuffling, chemistry, Capsid, Recombinant DNA, DNA

Abstract

Adeno-associated viruses (AAV) are attractive templates for engineering of synthetic gene delivery vectors. A particularly powerful technology for breeding of novel vectors with improved properties is DNA family shuffling, i.e., generation of chimeric capsids by homology-driven DNA recombination. Here, to make AAV DNA shuffling available to a wider community, we present a robust experimental and bioinformatical pipeline comprising: (i) standardized and partially codon-optimized plasmids carrying 12 different AAV capsid genes; (ii) a scalable protocol including troubleshooting guide for viral library production; and (iii) the freely available software SALANTO for comprehensive analysis of chimeric AAV DNA and protein sequences. Moreover, we describe a set of 12 premade and ready-to-use AAV libraries. Finally, we demonstrate the usefulness of DNA barcoding technology to trace AAV capsid libraries within a complex mixture. Our protocols and resources facilitate the implementation and tailoring of AAV evolution technology in any laboratory interested in customized viral gene transfer.

Published

2018

20. Single-Molecule Tracking of DNA Translocases in Bacillus subtilis Reveals Strikingly Different Dynamics of SftA, SpoIIIE, and FtsA

Author

Peter L. Graumann, Jihad El Andari, Georg Fritz, Christine Kaimer, Nina El Najjar, and Thomas C. Rösch

Subjects

0301 basic medicine, Cell division, 030106 microbiology, Genetics and Molecular Biology, Bacillus subtilis, Applied Microbiology and Biotechnology, Chromosome segregation, Cell membrane, 03 medical and health sciences, chemistry.chemical_compound, Bacterial Proteins, medicine, Translocase, Ecology, biology, Chemistry, fungi, Subcellular localization, biology.organism_classification, Cell biology, 030104 developmental biology, medicine.anatomical_structure, biology.protein, FtsA, Carrier Proteins, Cell Division, DNA, Food Science, Biotechnology

Abstract

Like many bacteria, Bacillus subtilis possesses two DNA translocases that affect chromosome segregation at different steps. Prior to septum closure, nonsegregated DNA is moved into opposite cell halves by SftA, while septum-entrapped DNA is rescued by SpoIIIE. We have used single-molecule fluorescence microscopy and tracking (SMT) experiments to describe the dynamics of the two different DNA translocases, the cell division protein FtsA and the glycolytic enzyme phosphofructokinase (PfkA), in real time. SMT revealed that about 30% of SftA molecules move through the cytosol, while a fraction of 70% is septum bound and static. In contrast, only 35% of FtsA molecules are static at midcell, while SpoIIIE molecules diffuse within the membrane and show no enrichment at the septum. Several lines of evidence suggest that FtsA plays a role in septal recruitment of SftA: an ftsA deletion results in a significant reduction in septal SftA recruitment and a decrease in the average dwell time of SftA molecules. FtsA can recruit SftA to the membrane in a heterologous eukaryotic system, suggesting that SftA may be partially recruited via FtsA. Therefore, SftA is a component of the division machinery, while SpoIIIE is not, and it is otherwise a freely diffusive cytosolic enzyme in vivo . Our developed SMT script is a powerful technique to determine if low-abundance proteins are membrane bound or cytosolic, to detect differences in populations of complex-bound and unbound/diffusive proteins, and to visualize the subcellular localization of slow- and fast-moving molecules in live cells. IMPORTANCE DNA translocases couple the late events of chromosome segregation to cell division and thereby play an important role in the bacterial cell cycle. The proteins fall into one of two categories, integral membrane translocases or nonintegral translocases. We show that the membrane-bound translocase SpoIIIE moves slowly throughout the cell membrane in B. subtilis and does not show a clear association with the division septum, in agreement with the idea that it binds membrane-bound DNA, which can occur through cell division across nonsegregated chromosomes. In contrast, SftA behaves like a soluble protein and is recruited to the division septum as a component of the division machinery. We show that FtsA contributes to the recruitment of SftA, revealing a dual role of FtsA at the division machinery, but it is not the only factor that binds SftA. Our work represents a detailed in vivo study of DNA translocases at the single-molecule level.

Published

2018

21. Molecular Signature of Astrocytes for Gene Delivery by the Synthetic Adeno‐Associated Viral Vector rAAV9P1

Author

Amelie Bauer, Matteo Puglisi, Dennis Nagl, Joel A Schick, Thomas Werner, Andreas Klingl, Jihad El Andari, Veit Hornung, Horst Kessler, Magdalena Götz, Dirk Grimm, and Ruth Brack‐Werner

Subjects

General Chemical Engineering, Genetic Vectors, Gene Transfer Techniques, General Engineering, General Physics and Astronomy, Medicine (miscellaneous), Dependovirus, Biochemistry, Genetics and Molecular Biology (miscellaneous), Mice, Transduction, Genetic, Astrocytes, Animals, General Materials Science, Aav, Adeno-associated Virus, Integrins, Receptor Profile, Vectors

Abstract

Astrocytes have crucial functions in the central nervous system (CNS) and are major players in many CNS diseases. Research on astrocyte-centered diseases requires efficient and well-characterized gene transfer vectors. Vectors derived from the Adeno-associated virus serotype 9 (AAV9) target astrocytes in the brains of rodents and nonhuman primates. A recombinant (r) synthetic peptide-displaying AAV9 variant, rAAV9P1, that efficiently and selectively transduces cultured human astrocytes, has been described previously. Here, it is shown that rAAV9P1 retains astrocyte-targeting properties upon intravenous injection in mice. Detailed analysis of putative receptors on human astrocytes shows that rAAV9P1 utilizes integrin subunits αv, β8, and either β3 or β5 as well as the AAV receptor AAVR. This receptor pattern is distinct from that of vectors derived from wildtype AAV2 or AAV9. Furthermore, a CRISPR/Cas9 genome-wide knockout screening revealed the involvement of several astrocyte-associated intracellular signaling pathways in the transduction of human astrocytes by rAAV9P1. This study delineates the unique receptor and intracellular pathway signatures utilized by rAAV9P1 for targeting human astrocytes. These results enhance the understanding of the transduction biology of synthetic rAAV vectors for astrocytes and can promote the development of advanced astrocyte-selective gene delivery vehicles for research and clinical applications.