Adeno-Associated Virus Technologies and Methods for Targeted Neuronal Manipulation

Leila Haery; Benjamin E. Deverman; Katherine S. Matho; Ali Cetin; Kenton Woodard; Connie Cepko; Karen I. Guerin; Meghan A. Rego; Ina Ersing; Susanna M. Bachle; Joanne Kamens; Melina Fan

doi:10.3389/fnana.2019.00093

Adeno-Associated Virus Technologies and Methods for Targeted Neuronal Manipulation

Leila Haery, Benjamin E. Deverman, Katherine S. Matho, Ali Cetin, Kenton Woodard, Connie Cepko, Karen I. Guerin, Meghan A. Rego, Ina Ersing, Susanna M. Bachle, Joanne Kamens, Melina Fan

Research output: Contribution to journal › Review article › peer-review

Abstract

Cell-type-specific expression of molecular tools and sensors is critical to construct circuit diagrams and to investigate the activity and function of neurons within the nervous system. Strategies for targeted manipulation include combinations of classical genetic tools such as Cre/loxP and Flp/FRT, use of cis-regulatory elements, targeted knock-in transgenic mice, and gene delivery by AAV and other viral vectors. The combination of these complex technologies with the goal of precise neuronal targeting is a challenge in the lab. This report will discuss the theoretical and practical aspects of combining current technologies and establish best practices for achieving targeted manipulation of specific cell types. Novel applications and tools, as well as areas for development, will be envisioned and discussed.

Original language	English
Article number	93
Journal	Frontiers in Neuroanatomy
Volume	13
DOIs	https://doi.org/10.3389/fnana.2019.00093
Publication status	Published - 26 Nov 2019
Externally published	Yes

Keywords

AAV
cell-type specificity
gene delivery
intersectional methods
neuroscience
targeted neuronal manipulation
viral vectors
virus technologies

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10.3389/fnana.2019.00093

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@article{9a9d0ae09fc345b6947ceaf7ec429383,

title = "Adeno-Associated Virus Technologies and Methods for Targeted Neuronal Manipulation",

abstract = "Cell-type-specific expression of molecular tools and sensors is critical to construct circuit diagrams and to investigate the activity and function of neurons within the nervous system. Strategies for targeted manipulation include combinations of classical genetic tools such as Cre/loxP and Flp/FRT, use of cis-regulatory elements, targeted knock-in transgenic mice, and gene delivery by AAV and other viral vectors. The combination of these complex technologies with the goal of precise neuronal targeting is a challenge in the lab. This report will discuss the theoretical and practical aspects of combining current technologies and establish best practices for achieving targeted manipulation of specific cell types. Novel applications and tools, as well as areas for development, will be envisioned and discussed.",

keywords = "AAV, cell-type specificity, gene delivery, intersectional methods, neuroscience, targeted neuronal manipulation, viral vectors, virus technologies",

author = "Leila Haery and Deverman, \{Benjamin E.\} and Matho, \{Katherine S.\} and Ali Cetin and Kenton Woodard and Connie Cepko and Guerin, \{Karen I.\} and Rego, \{Meghan A.\} and Ina Ersing and Bachle, \{Susanna M.\} and Joanne Kamens and Melina Fan",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2019 Haery, Deverman, Matho, Cetin, Woodard, Cepko, Guerin, Rego, Ersing, Bachle, Kamens and Fan.",

year = "2019",

month = nov,

day = "26",

doi = "10.3389/fnana.2019.00093",

language = "English",

volume = "13",

journal = "Frontiers in Neuroanatomy",

issn = "1662-5129",

}

TY - JOUR

T1 - Adeno-Associated Virus Technologies and Methods for Targeted Neuronal Manipulation

AU - Haery, Leila

AU - Deverman, Benjamin E.

AU - Matho, Katherine S.

AU - Cetin, Ali

AU - Woodard, Kenton

AU - Cepko, Connie

AU - Guerin, Karen I.

AU - Rego, Meghan A.

AU - Ersing, Ina

AU - Bachle, Susanna M.

AU - Kamens, Joanne

AU - Fan, Melina

PY - 2019/11/26

Y1 - 2019/11/26

N2 - Cell-type-specific expression of molecular tools and sensors is critical to construct circuit diagrams and to investigate the activity and function of neurons within the nervous system. Strategies for targeted manipulation include combinations of classical genetic tools such as Cre/loxP and Flp/FRT, use of cis-regulatory elements, targeted knock-in transgenic mice, and gene delivery by AAV and other viral vectors. The combination of these complex technologies with the goal of precise neuronal targeting is a challenge in the lab. This report will discuss the theoretical and practical aspects of combining current technologies and establish best practices for achieving targeted manipulation of specific cell types. Novel applications and tools, as well as areas for development, will be envisioned and discussed.

AB - Cell-type-specific expression of molecular tools and sensors is critical to construct circuit diagrams and to investigate the activity and function of neurons within the nervous system. Strategies for targeted manipulation include combinations of classical genetic tools such as Cre/loxP and Flp/FRT, use of cis-regulatory elements, targeted knock-in transgenic mice, and gene delivery by AAV and other viral vectors. The combination of these complex technologies with the goal of precise neuronal targeting is a challenge in the lab. This report will discuss the theoretical and practical aspects of combining current technologies and establish best practices for achieving targeted manipulation of specific cell types. Novel applications and tools, as well as areas for development, will be envisioned and discussed.

KW - AAV

KW - cell-type specificity

KW - gene delivery

KW - intersectional methods

KW - neuroscience

KW - targeted neuronal manipulation

KW - viral vectors

KW - virus technologies

U2 - 10.3389/fnana.2019.00093

DO - 10.3389/fnana.2019.00093

M3 - Review article

AN - SCOPUS:85076704413

SN - 1662-5129

VL - 13

JO - Frontiers in Neuroanatomy

JF - Frontiers in Neuroanatomy

M1 - 93

ER -

Adeno-Associated Virus Technologies and Methods for Targeted Neuronal Manipulation

Abstract

Keywords

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