Deep parallel characterization of AAV tropism and AAV-mediated transcriptional changes via single-cell RNA sequencing

Creators: Brown, David¹; Altermatt, Michael²; Dobreva, Tatyana¹; Chen, Sisi¹; Wang, Alexander¹; Thomson, Matt¹; Gradinaru, Viviana¹

1. California Institute of Technology
2. Calech

Description

Engineered variants of recombinant adeno-associated viruses (rAAVs) are being developed rapidly to meet the need for gene-therapy delivery vehicles with particular cell-type and tissue tropisms. While high-throughput AAV engineering and selection methods have generated numerous variants, subsequent tropism and response characterization have remained low throughput and lack resolution across the many relevant cell and tissue types. To fully leverage the output of these large screening paradigms across multiple targets, we have developed an experimental and computational single-cell RNA sequencing (scRNA-seq) pipeline for in vivo characterization of barcoded rAAV pools at high resolution. Using this platform, we have both corroborated previously reported viral tropisms and discovered unidentified AAV capsid targeting biases. As expected, we observed that the tropism profile of AAV.CAP-B10 in mice was shifted toward neurons and away from astrocytes when compared with AAV-PHP.eB. Transcriptomic analysis revealed that this neuronal bias is due mainly to increased targeting efficiency for glutamatergic neurons, which we confirmed by RNA fluorescence in situ hybridization. We further uncovered cell subtype tropisms of AAV variants in vascular and glial cells, such as low transduction of pericytes and Myoc+ astrocytes. Additionally, we have observed cell-type-specific transitory responses to systemic AAV-PHP.eB administration, such as upregulation of genes involved in p53 signaling in endothelial cells three days post-injection, which return to control levels by day twenty-five. The presented experimental and computational approaches for parallel characterization of AAV tropism with ability to simultaneously measure the transcriptional response of transduction will facilitate the advancement of safe and precise gene delivery vehicles.

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Read Sets.csv

Files (20.1 GB)

Name	Size	Actions
Read Sets.csv md5:cb9eea4032b5d933cf744bf0213e1a27	3.3 kB	Preview Download
aavomics_mouse_cortex_2021.h5ad md5:ccf4ff8b36a37d6f73ed02dc611f621d	5.9 GB	Download
aavomics_sample_metadata.csv md5:f19efb169fe4f08780d4f9d53c484496	4.7 kB	Preview Download
References.csv md5:f425e3eaae9ea3513b051224043cde2f	201 Bytes	Preview Download
aavomics_mouse_cortex_2021_droplet_training_data.h5ad md5:bd46c152d9dbffc7ee17b36abe161a35	3.7 GB	Download
Viruses.csv md5:8fbfa7729dab0a402fc75127bf0a1159	1.5 kB	Preview Download
CCN202105070_gene_clusters.csv md5:15f977b7c19846b01768443d43a04b76	6.1 MB	Preview Download
aavomics_cell_type_transduction_rates.csv md5:d47063ba52b39aae843d3aa2187ee7ee	60.4 kB	Preview Download
aavomics_immune_study_DE_3_vs_25_DPI.xlsx md5:51dfa6ea433c90b0f4dc9e093fd6d2bc	50.9 MB	Download
Alignments.csv md5:1841899f4b48a4ea1796f5c29643f68c	278 Bytes	Preview Download
Tissue Samples.csv md5:669726f98f8f0c1e6c54acbf88e20803	1.9 kB	Preview Download
Animals.csv md5:9e5ef22bb604d52daeebecbe2299da68	3.4 kB	Preview Download
CCN202105070_aavomics_cluster_transduction_rates.csv md5:b3e0dff7226816d0a8739ef839cefbbe	74.3 kB	Preview Download
Vector Pools.csv md5:a41714d6ad53fe2c3d6160cda9130e80	3.4 kB	Preview Download
CCN202105070_marker_gene_clusters.csv md5:8f3602d0b150a8d52f496b2d9958e19c	7.3 kB	Preview Download
Vectors.csv md5:d34e21311b54232c02885dec63c681ee	6.4 kB	Preview Download
Cell Sets.csv md5:f18edea01c8b31968b35290ac0dae02b	1.4 kB	Preview Download
Dissociation Runs.csv md5:e064abd0401c048c821b5073e2d7e515	723 Bytes	Preview Download
Injections.csv md5:84ec104a968156cbb3b172c55147cf27	4.0 kB	Preview Download
genes.gtf.gz md5:f161764ba26d3ffa18ba4ee4633afd28	3.1 MB	Download
Sequencing Libraries.csv md5:5a6daab8642e66b64efd0ee41161c368	10.8 kB	Preview Download
aavomics_marker_gene_transduction_rates.csv md5:7dfbdd0299ba9790de09a3bd479ccb69	79.5 kB	Preview Download
Sequencing Runs.csv md5:118cd4bfb4c4e58eb3721d732ffbfe36	4.4 kB	Preview Download
aavomics_SRA_file_metadata.csv md5:7ac61210dbfc7c3dbbaa1836fd42adab	11.8 kB	Preview Download
aavomics_SRA_metadata.csv md5:c3834c641621011d7288f53b4945688c	2.4 kB	Preview Download
Templates.csv md5:8351eb38e1e34eb00b09da59569ab1e9	15.4 kB	Preview Download
aavomics_cell_metadata.csv md5:572809def38a835310b954e92811f3b2	76.6 MB	Preview Download
refdata-gex-mm10-2020-A.tar.gz md5:886eeddde8731ffb58552d0bb81f533d	10.3 GB	Download

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Related Publication: Deep parallel characterization of AAV tropism and AAV-mediated transcriptional changes via single-cell RNA sequencing https://doi.org/10.1101/2021.06.25.449955 eng

Deep parallel characterization of AAV tropism and AAV-mediated transcriptional changes via single-cell RNA sequencing

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