Identification of cell-type-specific promoters within the brain using lentiviral vectors

Chhatwal, JP; Hammack, Sayamwong E.; Jasnow, AM; Rainnie, Donald G.; Ressler, Kerry J.

doi:10.1038/sj.gt.3302898

Cited by 34 publications

(42 citation statements)

References 29 publications

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“…To examine the role of cortex-specific BDNF in modulating fear, we used a newly developed cortex-specific BDNF knockout mouse model (33). Expression of Cre recombinase in these mice includes the PL and neocortex but spares the more ventral IL, along with all other paleocortical and subcortical regions, with no expression in hippocampus, thalamus, striatum, hypothalamus, or amygdala ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Lentivirus experiments used homozygous BDNF-floxed mice (34) (Bdnf tm3Jae /J; Jackson Labs), which possess loxP sites both upstream and downstream of exon 5 of the BDNF gene. The cortex-specific Cre mouse line, previously described as "transgenic line C" (33), was created when the coding sequence for Cre recombinase was placed downstream of a 3-kb CCK promoter. The cortexspecific Cre line was crossed to floxed BDNF mice, floxed-stop[Jackson Labs, Gt (ROSA)26Sor] lacZ reporter mice (35), and floxed-stop EGFP-tdTomato mice (36).…”

Section: Methodsmentioning

confidence: 99%

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Prelimbic cortical BDNF is required for memory of learned fear but not extinction or innate fear

Choi

Maguschak

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

189

126

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In the medial prefrontal cortex, the prelimbic area is emerging as a major modulator of fear behavior, but the mechanisms remain unclear. Using a selective neocortical knockout mouse, virally mediated prelimbic cortical-specific gene deletion, and pharmacological rescue with a TrkB agonist, we examined the role of a primary candidate mechanism, BDNF, in conditioned fear. We found consistently robust deficits in consolidation of cued fear but no effects on acquisition, expression of unlearned fear, sensorimotor function, and spatial learning. This deficit in learned fear in the BDNF knockout mice was rescued with systemic administration of a TrkB receptor agonist, 7,8-dihydroxyflavone. These data indicate that prelimbic BDNF is critical for consolidation of learned fear memories, but it is not required for innate fear or extinction of fear. Moreover, use of site-specific, inducible BDNF deletions shows a powerful mechanism that may further our understanding of the pathophysiology of fear-related disorders.learning | plasticity | prefrontal cortex | Cre/LoxP | inducible knockout I n healthy individuals, the prefrontal cortex and amygdala are critical for processing fearful and other emotional stimuli and for learning to extinguish fears in situations that are no longer threatening (1, 2). In contrast, patients suffering from posttraumatic stress disorder (PTSD) or anxiety disorders describe persistent anxiety-provoking memories that are severely debilitating and cannot be extinguished (3-6). Therefore, the experimental analysis of fear modulation and extinction is critical for an understanding of the neurobiology of fear inhibition. The medial prefrontal cortex (mPFC) is suggested to be an important region for the regulation of fear (7-13). Although it is established that the infralimbic cortex (IL) region of the mPFC is required for fear extinction (9,11,14), the role of the prelimbic cortex (PL) in the regulation of fear learning and extinction are yet to be fully understood. Although previous studies have shown that lesions of the PL do not affect acquisition or expression of fear (7, 9, 15), inactivation reduces freezing behavior in previously fear-conditioned rats (16). Additionally, activation of PL neurons are required for the expression of previously learned fears (17, 18), and microstimulation of the PL potentiates expression of conditioned fear (19). Moreover, these neurons have also shown plasticity after fear conditioning (18,20,21) and have sustained activity to conditioned tones (22). Overall, these data suggest that the PL is necessary for the expression of previously learned fear, but the mechanisms remain unclear.One potential candidate may be BDNF and its receptor tyrosine kinase receptor B (TrkB); they are known to regulate neuronal structure and function and are important for synaptic plasticity (23-26). Additionally, in vivo studies have shown a role for BDNF in learning and memory, including fear conditioning (27-31). More specifically, we have previously shown that disruption of TrkB activat...

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Prelimbic cortical BDNF is required for memory of learned fear but not extinction or innate fear

Choi

Maguschak

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

189

126

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“…AAV-mediated expression may be less stable because a much smaller percentage of the virus is integrated. These vectors can be rendered cell type-specific by the choice of promoter [29], viral receptors [30], or spatial targeting strategies [31]. The volume and concentration of virus determines the spread in the tissue and opsin expression region.…”

Section: Basics Of Optogenetic Stimulationmentioning

confidence: 99%

Optical techniques in optogenetics

Mohanty

Lakshminarayanan

2015

Journal of Modern Optics

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Optogenetics is an innovative technique for optical control of cells. This field has exploded over the past decade or so and has given rise to great advances in neuroscience. A variety of applications both from the basic and applied research have emerged, turning the early ideas into a powerful paradigm for cell biology, neuroscience and medical research. This review aims at highlighting the basic concepts that are essential for a comprehensive understanding of optogenetics and some important biological/biomedical applications. Further, emphasis is placed on advancement in optogenetics-associated light-based methods for controlling gene expression, spatially-controlled optogenetic stimulation and detection of cellular activities.

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“…Additionally, numerous studies have indicated that some other promoters, including the ovary specific promoter (OSP1) and the high-affinity folate receptors promoter (HAFR) (Godwin et al, 1995;Goldsmith et al, 1999), the modified rat probasin (rPB) promoters (Furuhata et al, 2003), and the neuroactive peptide cholecystokinin (CCK) promoter (Chhatwal et al, 2007), are of potential value for tissue specific expression of the tv-a gene. 1.2 Both isoforms of TVA molecule are sufficient for acceptance of the RCAS vectors As mentioned earlier, two isoforms, a transmembrane and a GPI-linked one, have been identified.…”

Section: Choice Of Specific Promotersmentioning

confidence: 99%

Mammalian Models Based on RCAS-TVA Technique

Niu¹,

Liang²

2008

Zoological Research

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Abstract:The retroviral vector (RCAS) has been widely used in avian system to study development and diseases, but is not suitable for mammals which do not produce the retrovirus receptor TVA. In this review, we trace the current uses of RCAS-TVA approach in mammalian system with improved strategies, including generation of tv-a transgenic mice, use of soluble TVA receptor and retroviral receptor-ligand fusion proteins, improvement of RCAS vectors, and compare a series of mammalian models in variant studies of gene function, development, oncogenesis and gene therapy. All those studies demonstrate that the RCAS-TVA based mammalian models are powerful tools for understanding the mechanisms and target treating of human diseases.

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Identification of cell-type-specific promoters within the brain using lentiviral vectors

Cited by 34 publications

References 29 publications

Prelimbic cortical BDNF is required for memory of learned fear but not extinction or innate fear

Prelimbic cortical BDNF is required for memory of learned fear but not extinction or innate fear

Optical techniques in optogenetics

Mammalian Models Based on RCAS-TVA Technique

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