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Adeno-Associated Virus
Adeno-Associated Virus
Adeno-Associated Viruses (AAVs) are small, non-enveloped DNA viruses that belong to the Parvoviridae family.
They are replication-deficient and require a helper virus, such as adenovirus or herpesvirus, for their efficient replication.
AAVs have a unique ability to infect a wide range of host cells, including both dividing and non-dividing cells, making them a valuable tool in gene therapy and biotechnology applications.
Their tropism can be engineered to target specific cell types, and their genome can be modified to deliver therapeutic genes or silencing constructs.
AAVs are considered relatively safe due to their non-pathogenic nature and the ability to produce recombinant vectors with minimal viral sequences.
However, pre-existing immunity to common AAV serotypes can limit their effectiveness in some applications.
Researchers continue to explore the diverse potential of these versatile viruses in advancing medical and scientific discoveries.
They are replication-deficient and require a helper virus, such as adenovirus or herpesvirus, for their efficient replication.
AAVs have a unique ability to infect a wide range of host cells, including both dividing and non-dividing cells, making them a valuable tool in gene therapy and biotechnology applications.
Their tropism can be engineered to target specific cell types, and their genome can be modified to deliver therapeutic genes or silencing constructs.
AAVs are considered relatively safe due to their non-pathogenic nature and the ability to produce recombinant vectors with minimal viral sequences.
However, pre-existing immunity to common AAV serotypes can limit their effectiveness in some applications.
Researchers continue to explore the diverse potential of these versatile viruses in advancing medical and scientific discoveries.
Most cited protocols related to «Adeno-Associated Virus»
Adeno-Associated Virus
Animals
Attention
Cells
Cloning Vectors
Conditioning, Psychology
Gamma Rays
Light
Mus
neuro-oncological ventral antigen 2, human
Neurons
Nose
Optogenetics
Population Group
Premature Birth
Psychological Inhibition
Relative Energy Deficiency in Sport
Silicon
Experimental procedures for tracer injections have been described previously52 (link). Briefly, double coinjections of anterograde and retrograde tracers were delivered to virtually all anatomically delineated regions of the cortex and into select regions of the amygdala and thalamus. Phaseolus vulgaris leucoagglutinin (PHAL; 2.5%; Vector Laboratories) and cholera toxin subunit b (AlexaFluor 647 conjugate, 0.25%; Invitrogen) were coinjected, while biotinylated dextran amine (BDA; FluoroRuby, 5%; Invitrogen) was injected in combination with Fluorogold (FG; 1%; Fluorochrome, LLC). Small localized injections (~200–500 μm) were confined within domains of cortical areas and produced consistent, specific, and highly topographic patterns across the rostral-caudal extent of the CP (Supplementary Fig. 1a ). The labeling from PHAL injections was primarily used for automated quantification (see below). Multiple retrograde tracers were injected into different CP domains within a single animal to validate the anterograde tracing data (Supplementary Fig. 1b ). Retrograde tracers included FG and CTb 647, 488, and 549 conjugates (0.25%; Invitrogen). Adeno-associated viruses encoding enhanced green fluorescent protein (AAV-GFP; AAV2/1.hSynapsin.EGFP.WPRE.bGH; Penn Vector Core) and tdTomato (AAV1.CAG.tdtomato.WPRE.SV40; Penn Vector Core) were used in cases in which multiple anterograde tracer injections were used to reveal direct spatial correlations of axonal terminals arising from different cortical areas (i.e., topography or interdigitation) (Supplementary Fig. 2a ). Although the images in the paper are unique exemplars, the majority of injections were successfully repeated anywhere from 1–17 times (see Supplementary Table 1 ). For zQ175 and MAO A/B knockout mice, only PHAL tracer injections and labeling were used for quantification. Either one (PHAL) or three weeks (for AAV-GFP) was allowed for tracer transport after which animals were perfused and their brains were extracted.
Surgeries for tracer infusions were performed under isoflurane anesthesia (Hospira, Inc.). Mice were initially anesthetized in an induction chamber primed with isoflurane and were subsequently mounted to the stereotaxic apparatus where they were maintained under anesthetic state via a vaporizer (Datex-Ohmeda). The isoflurane was vaporized and mixed with oxygen (0.5 L/min) and nitrogen (1 L/min). The percent of isoflurane in the gas mixture was maintained between 2 and 2.5 throughout the surgery. Tracers were delivered iontophoretically using glass micropipettes whose outside tip diameters measured approximately 10–30 μm. A positive 5 μAmp, 7-second alternating injection current was delivered for 10 minutes (Stoelting Co.).
Surgeries for tracer infusions were performed under isoflurane anesthesia (Hospira, Inc.). Mice were initially anesthetized in an induction chamber primed with isoflurane and were subsequently mounted to the stereotaxic apparatus where they were maintained under anesthetic state via a vaporizer (Datex-Ohmeda). The isoflurane was vaporized and mixed with oxygen (0.5 L/min) and nitrogen (1 L/min). The percent of isoflurane in the gas mixture was maintained between 2 and 2.5 throughout the surgery. Tracers were delivered iontophoretically using glass micropipettes whose outside tip diameters measured approximately 10–30 μm. A positive 5 μAmp, 7-second alternating injection current was delivered for 10 minutes (Stoelting Co.).
Adeno-Associated Virus
Alexafluor-647
Amygdaloid Body
Anesthesia
Anesthetics
Animals
biotinylated dextran amine
Brain
Choleragenoid
Cloning Vectors
Cortex, Cerebral
enhanced green fluorescent protein
Fluorescent Dyes
Fluoro-Gold
Isoflurane
Kidney Cortex
Mice, House
Mice, Knockout
Monoamine Oxidase B
Nitrogen
Operative Surgical Procedures
Oxygen
Phaseolus vulgaris leucoagglutinin
Presynaptic Terminals
Simian virus 40
tdTomato
Thalamus
Vaporizers
Adeno-Associated Virus
Adenoviruses
Adipocytes
Biological Assay
Cell Lines
Cells
Cloning Vectors
Embryo
Fetal Bovine Serum
Fibroblasts
Glucose
Hepatocyte
Hep G2 Cells
Lipofectamine
lipofectamine 2000
Mus
Plasmids
Polyethyleneimine
RNA, Small Interfering
Tail
Transfection
Veins
Adeno-Associated Virus
Animals
Antibodies
Antibodies, Anti-Idiotypic
Bicarbonate, Sodium
Brain
Buffers
Cells
Chickens
Choline
Common Cold
Dopaminergic Neurons
Fluorescence
Glucose
Goat
Heart
Injections, Intraperitoneal
Magnesium Chloride
Microscopy
Microscopy, Confocal
Mus
Normal Saline
Nucleus Accumbens
paraform
Pulse Rate
Rabbits
Sapphire
Sodium Chloride
Stimulations, Electric
Submersion
Sucrose
Tandem Mass Spectrometry
Tissues
Virus
Adeno-Associated Virus
Cloning Vectors
Cortex, Cerebral
Genes
Head
Institutional Animal Care and Use Committees
Males
Mice, Laboratory
Operative Surgical Procedures
Optogenetics
Protein, Nestin
Simian virus 40
Stainless Steel
Most recents protocols related to «Adeno-Associated Virus»
A total of 60 C57BL/6 mice aged 7–8 weeks were housed in strict accordance with the specific pathogen-free (SPF) feeding protocols. The mice were housed in a relatively noise-free isolation room at 22–24 °C with a humidity of 50–60% and alternating dark–light circles for 12 h. The mouse food and padding were all disinfected by high-temperature treatment, while the drinking water was disinfected by high-temperature and high-pressure treatment. The padding was changed once weekly, while the food and drinking water were replenished daily. The full-length cDNA sequence in the TNFα coding region was inserted into the psc adeno-associated viruses (AAV)-MCS to construct the pscAAV-TNFα plasmid. The AAVs were prepared by the AAV-Helper-Free system Cell Biolab (Cell Biolabs, San Diego, CA, USA). After fasting for 12 h, the mice were anesthetized using an isoflurane vaporizer, and a 4 cm soft catheter was inserted into the anus of mice. The constructed AAV2-control (AAV-control) or AAV2-TNFα (AAV-TNFα) [5 × 1010 μg dissolved in 100 μL phosphate-buffered saline (PBS)] were clustered into mice through a tube, after which the mice were kept in an upside-down position for 1 min. After recovering from anesthesia, the mice were fed for another two weeks prior to subsequent experiments. The mice were fed with 3% (w/v) DSS (60316ES60, Yeasen, Shanghai, China) dissolved in drinking water for 7 consecutive days for a total of 5 weeks to induce acute UC.
The successfully established UC mice were treated by QRXY (n = 9), AVV-Control (n = 9), AVV-Control + QRXY (n = 9), AVV-TNFα + QRXY (n = 9), while the untreated UC mice were regarded as control (n = 6). QRXY was administrated via gavage 30 min before modeling (daily dose of 1.62 g crude drug/kg, dissolved in drinking water). The body weight of mice after different treatment protocols was documented every day, and the mice were euthanized on the seventh day. The peripheral blood was isolated from the eyes of the mice after anesthesia, while the plasma was separated by centrifugation at 4000 rpm. After dissection, the jejunum and colon were taken for subsequent analysis.
The successfully established UC mice were treated by QRXY (n = 9), AVV-Control (n = 9), AVV-Control + QRXY (n = 9), AVV-TNFα + QRXY (n = 9), while the untreated UC mice were regarded as control (n = 6). QRXY was administrated via gavage 30 min before modeling (daily dose of 1.62 g crude drug/kg, dissolved in drinking water). The body weight of mice after different treatment protocols was documented every day, and the mice were euthanized on the seventh day. The peripheral blood was isolated from the eyes of the mice after anesthesia, while the plasma was separated by centrifugation at 4000 rpm. After dissection, the jejunum and colon were taken for subsequent analysis.
Adeno-Associated Virus
Anesthesia
Anus
BLOOD
Body Weight
Catheters
Cell-Free System
Cells
Centrifugation
Colon
Dissection
DNA, Complementary
Eye
Fever
Food
Humidity
Isoflurane
isolation
Jejunum
Light
Mice, Inbred C57BL
Mus
Open Reading Frames
Pharmaceutical Preparations
Phosphates
Plasma
Plasmids
Pressure
Saline Solution
Specific Pathogen Free
TNF protein, human
Treatment Protocols
Tube Feeding
Vaporizers
Following behavioral testing, one cohort of the Chat::Cre+ transgenic rats (N = 4 males, N = 4 females) were injected with an adeno‐associated viral vector (AAV) into the basal forebrain (BF) to induce enhanced yellow fluorescent protein (EYFP) expression in cholinergic neurons. Rats were anesthetized with isoflurane (5% for induction, 2.5% for maintenance, E‐Z Systems Palmer, PA) in oxygen, placed in a Kopf stereotaxic device (David Kopf Instruments, Tujunga CA), and body temperature was maintained using a homeothermic blanket (Harvard Apparatus, Holliston, MA). After administration of a local anesthetic (2% carbocaine, s.c.) at the incision site, the basal forebrain was targeted by drilling two holes through the skull using the following coordinates measured from Bregma with skull flat: A/P‐0.8, L/M+/− 2.4, DV ‐8.6‐8.8.46 Rats were injected bilaterally with 2 μl of rAAV5/Ef1a‐DIO‐EYFP (UNC Viral Vector Core; LOT AV4310L) using a 33‐gauge needle on a Neuros Hamilton syringe at a rate of 0.2 μl/min using a motorized injector (Stoelting QSI Stereotaxic injector Wood Dale, IL). Following injections, the viral vector was allowed to diffuse for 10 min before the needle was withdrawn. Nalbuphine (2 mg/kg, s.c.) was administered postoperatively for pain management, the diet was supplemented with bacon softies (Bio‐serve, Frenchtown, NJ) to maintain postoperative weight, and topical nitrofurazone powder (NFZ puffer, Neogen Corporation) was used for prevention of infection at the incision site. Animals were allowed 3 weeks of recovery prior to perfusion and euthanasia to determine the number of BF cholinergic neurons expressing eYFP using immunofluorescence for choline acetyltransferase (ChAT; described below).
Adeno-Associated Virus
Aftercare
Animals
BACON protocol
Basal Forebrain
Body Temperature
Carbocaine
Choline O-Acetyltransferase
Cholinergic Neurons
Cloning Vectors
Cranium
Diet
Euthanasia
Females
Immunofluorescence
Infection
Isoflurane
Local Anesthesia
Males
Management, Pain
Medical Devices
Nalbuphine
Needles
Nitrofurazone
Oxygen
Perfusion
Powder
Proteins
Pufferfish
Rats, Transgenic
Rattus
Syringes
Embryonic hippocampal and cortical neurons were cultured as described previously.24 (link) Briefly, neurons were seeded at a density of 200,000 cells/well in 6-well tissue culture dishes (Falcon, Glendale, AZ, USA) precoated with poly-D-lysine (0.1 mg/mL; Sigma-Aldrich) and cultured in defined medium of Neurobasal, l-glutamine (2 mm), penicillin-streptomycin, and B27 supplement (1:50; all from Thermo Fisher Scientific). On day 3, adeno-associated viruses (AAVs) were transduced at a multiplicity of infection of 100,000. On day 7, cultures were rinsed with Dulbecco's phosphate-buffered saline (DPBS) and subsequently lysed in 500 µL RIPA with protease inhibitor cocktail followed by sonication. Lysate was clarified with centrifugation at 10,000 × g for 10 minutes. Samples were boiled for 5 minutes in SDS sample buffer and run on 4% to 20% TGX gels (Bio-Rad). Then, 0.2-µm nitrocellulose membranes were probed with rabbit anti-Kif5a (ab5628, 1:2000; Abcam, Cambridge, MA, USA), mouse anti-FLAG (F1804, 1:1000; Sigma-Aldrich), mouse anti-mCherry (ab125096, 1:5000; Abcam), or mouse anti-GFP (ab1218, 1:5000; Abcam) diluted in 5% milk with 0.2% Tween-20 in tris-buffered saline (TBST).
Adeno-Associated Virus
Buffers
Centrifugation
Culture Media
Dietary Supplements
Embryo
Gels
Glutamine
Hyperostosis, Diffuse Idiopathic Skeletal
Infection
Kidney Cortex
Lysine
Milk
Mus
Neurons
Nitrocellulose
Penicillins
Phosphates
Poly A
Protease Inhibitors
Rabbits
Radioimmunoprecipitation Assay
Saline Solution
Streptomycin
Tissue, Membrane
Tissues
Tween 20
In this study we aimed to determine whether VMAT2 overexpression could decrease age-related NM production in vivo and prevent/attenuate PD pathology. This question was addressed by taking advantage of the only currently available rodent model of NM production, which we have recently developed, based on the unilateral viral vector-mediated overexpression of TYR in the rat SNpc.5 (link) In parallel to NM accumulation, these animals develop a progressive PD-like phenotype characterized by motor deficits, LB-like inclusion formation, nigrostriatal neurodegeneration, extracellular NM released from dying neurons and neuroinflammation. Adult male Sprague–Dawley rats were randomly distributed into three different experimental groups receiving, respectively, unilateral intranigral injections of either adeno-associated viral vector (AAV)-TYR, AAV-VMAT2 or a combination of both. After confirming that the combination of both vectors did not interfere with the expression of one another, we evaluated in all groups behavioural (motor asymmetry), histological (intracellular NM levels, LB-like inclusion formation, TH and VMAT2 downregulation, nigrostriatal degeneration, extracellular NM, neuroinflammation) and metabolic (DA vesicular uptake, DA levels, DA metabolism, DA oxidation) changes. Based on our previous observations, two different experimental time-points were selected for these evaluations: (i) at the onset of NM-linked neuronal dysfunction but before neurodegeneration (i.e. 2 months post-AAV), equivalent to prodromal PD; and (ii) once nigrostriatal neurodegeneration is fully established in these animals (i.e. 6 months post-AAV), equivalent to established PD.5 (link) Two types of controls were used for the different quantifications: (i) the unaffected contralateral (non-AAV injected) hemisphere of each animal, representing an internal control/baseline; and (ii) a group of rats unilaterally injected with AAV-VMAT2 in the SN, which serve as a control of the potential effects of VMAT2 overexpression by itself. In addition, we had previously reported that unilateral nigral injections of the corresponding AAV-empty vector (EV) or vehicle/sham does not produce any nigral pathology in these animals in contrast to AAV-TYR injections.5 (link) Therefore, AAV-EV or vehicle/sham injections were not used in this study, to minimize the number of animals according to international regulations on the protection of animals used for experimental purposes. All researchers were blinded to the experimental groups analysed.
Adeno-Associated Virus
Adeno-associated virus-5
Adult
Animals
Cloning Vectors
Down-Regulation
Males
Metabolism
Nerve Degeneration
Neurons
Phenotype
Protoplasm
Rats, Sprague-Dawley
Rattus norvegicus
Rodent
Substantia Nigra
All animal procedures were performed under a protocol approved by the Washington University in St. Louis Institutional Animal Care and Use Committee. C57/BL6 mice (female, 6–8 weeks old) were purchased from Charles River and housed in an animal facility under a 12 h light-dark cycle. Adeno-associated viral vectors (AAV) were introduced to CaMKII-expressing neurons of the M2 cortex to overexpress TRPV1 ion channel. Cloning, packaging, purification, and viral titer calculations were performed by the Hope Center Viral Vectors Core at Washington University School of Medicine. The CaMKII-TRPV1 sequence was introduced into the AAV5 recombinant genome flanked by inverted terminal repeat sequences. The control sequence did not contain TRPV1. All surgeries were conducted under aseptic conditions. Mice were anesthetized with 2% isoflurane in oxygen in an anesthetic chamber for induction and 1.5% isoflurane for maintaining anesthesia. Anesthetized mice were then fixed onto a stereotaxic frame (Kopf Instruments) using a bite bar and ear bars. Buprenorphine SR (1.0 mg kg−1) was administered subcutaneously for pre-operative and post-operative pain management. The head was shaved and was rubbed with skin disinfectant (Hibiclens). An incision was made on the scalp, the skin was retracted, and the periosteum was removed. A small hole was drilled through the skull (−1.0 mm ML, +2.5 mm AP, −1.0 mm DV), and a micro-injector (Nanoject II, Drummond Scientific) was inserted into the motor cortex. 1200 nL of TRPV1 virus (1.4 × 1012 vg ml−1) was introduced at a rate of 64 nL min−1. 1000 nL of control virus (3.2 × 1012 vg ml−1) was introduced to approximately match the viral genome copy numbers delivered to the motor cortex. After injection, the micro-injector was slowly removed, the hole was filled with bone wax, and the scalp was sutured. Mice were housed for at least 4 weeks to facilitate sufficient virus expression before further treatments were conducted.
Adeno-Associated Virus
Anesthesia
Anesthetics
Animals
Asepsis
bone wax
Buprenorphine
Calmodulin-Dependent Protein Kinase II
Cloning Vectors
Cortex, Cerebral
Cranium
Dental Occlusion
Females
Genome
Head
Hibiclens
Institutional Animal Care and Use Committees
Inverted Terminal Repeat
Ion Channel
Isoflurane
Mice, House
Motor Cortex
Neurons
Operative Surgical Procedures
Oxygen
Pain, Postoperative
Periosteum
Reading Frames
Rivers
Scalp
Skin
Viral Genome
Virus
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More about "Adeno-Associated Virus"
Adeno-Associated Viruses (AAVs) are a versatile family of small, non-enveloped DNA viruses belonging to the Parvoviridae.
These replication-deficient viruses require a helper virus, such as adenovirus or herpesvirus, for efficient replication.
AAVs possess a unique ability to infect a wide range of host cells, including both dividing and non-dividing cells, making them a valuable tool in gene therapy and biotechnology applications.
The tropism of AAVs can be engineered to target specific cell types, and their genome can be modified to deliver therapeutic genes or silencing constructs.
These viruses are considered relatively safe due to their non-pathogenic nature and the ability to produce recombinant vectors with minimal viral sequences.
However, pre-existing immunity to common AAV serotypes can limit their effectiveness in some applications.
Researchers continue to explore the diverse potential of these versatile viruses in advancing medical and scientific discoveries, including the use of Stereotaxic frames, Nanoject II devices, HEK293T cells, Vetbond tissue adhesive, B27 supplement, fetal bovine serum (FBS), Mouse PM20D1-flag, Clozapine N-oxide, and PEI MAX transfection reagent.
By leveraging the insights gained from the MeSH term description and the metadescription, this content provides a comprehensive overview of Adeno-Associated Viruses, their applications, and related technologies, all while incorporating relevant synonyms, abbreviations, and key subtopics to optimize for SEO.
These replication-deficient viruses require a helper virus, such as adenovirus or herpesvirus, for efficient replication.
AAVs possess a unique ability to infect a wide range of host cells, including both dividing and non-dividing cells, making them a valuable tool in gene therapy and biotechnology applications.
The tropism of AAVs can be engineered to target specific cell types, and their genome can be modified to deliver therapeutic genes or silencing constructs.
These viruses are considered relatively safe due to their non-pathogenic nature and the ability to produce recombinant vectors with minimal viral sequences.
However, pre-existing immunity to common AAV serotypes can limit their effectiveness in some applications.
Researchers continue to explore the diverse potential of these versatile viruses in advancing medical and scientific discoveries, including the use of Stereotaxic frames, Nanoject II devices, HEK293T cells, Vetbond tissue adhesive, B27 supplement, fetal bovine serum (FBS), Mouse PM20D1-flag, Clozapine N-oxide, and PEI MAX transfection reagent.
By leveraging the insights gained from the MeSH term description and the metadescription, this content provides a comprehensive overview of Adeno-Associated Viruses, their applications, and related technologies, all while incorporating relevant synonyms, abbreviations, and key subtopics to optimize for SEO.