Micromanipulation of Gene Expression in the Adult Zebrafish Brain Using Cerebroventricular Microinjection of Morpholino Oligonucleotides

Kızıl, Çağhan; Iltzsche, Anne; Kaslin, Jan; Brand, Michael

doi:10.3791/50415

Cited by 27 publications

(21 citation statements)

References 30 publications

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“…Microinjections: Cerebroventricular microinjections (CVMI) were performed as described. 48,49 Tissue preparation and immunohistochemistry: Tissue preparations and stainings were performed as described previously using the following antibodies: anti-ß-Amyloid (Cell Signaling, 8243, 1:500), anti-HuC/D (Life Technologies, A21271, 1:500), anti-PCNA (Dako, M0879, 1:500), anti-S100b (Dako, Z0311, 1:500), anti-L-Plastin (gift from Michael Redd, 1:5000), anti-acetylated-tubulin (Sigma, T6793, 1:500), anti-BrdU (Abd Serotec, MCA2060, 1:500), Synaptophysin (Abcam, Ab32594, 1:500). All secondary antibodies were from Molecular probes and were used at 1:500 dilution.…”

Section: Methodsmentioning

confidence: 99%

The effects of aging on Amyloid-β42-induced neurodegeneration and regeneration in adult zebrafish brain

et al. 2017

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Alzheimer disease is the most prevalent neurodegenerative disease and is associated with aggregation of Amyloid-β42 peptides. In mammals, Amyloid-β42 causes impaired neural stem/progenitor cell (NSPC) proliferation and neurogenesis, which exacerbate with aging. The molecular programs necessary to enhance NSPC proliferation and neurogenesis in our brains to mount successful regeneration are largely unknown. Therefore, to identify the molecular basis of effective brain regeneration, we previously established an Amyloid-β42 model in adult zebrafish that displayed Alzheimer-like phenotypes reminiscent of humans. Interestingly, zebrafish exhibited enhanced NSPC proliferation and neurogenesis after microinjection of Amyloid-β42 peptide. Here, we compare old and young fish to address the effects of aging on regenerative ability after Amyloid-β42 deposition. We found that aging does not affect the rate of NSPC proliferation but reduces the neurogenic response and microglia/macrophage activation after microinjection of Amyloid-β42 in zebrafish, suggesting an important link between aging, neuroinflammation, regenerative neurogenesis and neural stem cell plasticity.

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Section: Methodsmentioning

confidence: 99%

The effects of aging on Amyloid-β42-induced neurodegeneration and regeneration in adult zebrafish brain

et al. 2017

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“…In vivo methods for functional analysis of miRNA in zebrafish gonad have yet to be developed. Recently, targeted gene knockdown by injection of morpholino oligonucleotides antisense for an miRNA precursor was developed for the zebrafish brain (Kizil et al 2013). There is potential that a zebrafish line optimized for reproductive biology could allow this technique to be adapted for gonadal studies as well.…”

Section: Introductionmentioning

confidence: 99%

See-Thru-Gonad zebrafish line: developmental and functional validation

et al. 2016

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Zebrafish are an important model species in developmental biology. However, their potential in reproductive biology research has yet to be realized. In this study, we established See-Thru-Gonad zebrafish, a transparent line with fluorescently labeled germ cells visible throughout the life cycle, validated its gonadal development features, and demonstrated its applicability by performing a targeted gene knockdown experiment using vivo-morpholinos (VMOs). To establish the line, we crossed the zf45Tg and mitfa(w2/w2); mpv17(b18/b18) zebrafish lines. We documented the in vivo visibility of the germline-specific fluorescent signal throughout development, from gametes through embryonic and juvenile stages up to sexual maturity, and validated gonadal development with histology. We performed targeted gene knockdown of the microRNA (miRNA) miR-92a-3p through injection of VMOs directly to maturing ovaries. After the treatment, zebrafish were bred naturally. Embryos from miR-92a-3p knockdown ovaries had a significant reduction in relative miR-92a-3p expression and a higher percentage of developmental arrest at the 1-cell stage as compared with 5-base mismatch-treated controls. The experiment demonstrates that See-Thru-Gonad line can be successfully used for vertical transmission of the effects of targeted gene knockdown in ovaries into their offspring.

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“…This type of system with gradual cooling and warming could likely be used for performing procedures, such as cerebroventricular microinjections into the adult zebrafish brain that are currently and can only be done using chemical anesthetics. [18][19][20][21]…”

Section: Discussionmentioning

confidence: 99%

A Novel, Low-Cost Anesthesia and Injection System for Zebrafish Researchers

et al. 2018

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In this study, we designed and developed a novel low-cost system for anesthetizing and injecting adult zebrafish. The system utilizes a gradual cooling method for the anesthesia and maintains the fish in a stable anesthetic plane, as well as stabilizes the animal so that intraperitoneal injections can be consistently performed. It is a system that any laboratory with access to a workshop can build for their group. Moreover, it is a safe system for researchers, as well as a reliable one for repeated experiments since multiple fish can be injected quickly and there is little physical contact necessary between the investigator and the animal. This will likely reduce any unnecessary stress in the fish, as compared with manual methods of injection. Finally, the system is adaptable so that as the investigators' procedural needs change due to different research questions, that is, gradual rewarming or something of that nature, it could be modified.

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Micromanipulation of Gene Expression in the Adult Zebrafish Brain Using Cerebroventricular Microinjection of Morpholino Oligonucleotides

Cited by 27 publications

References 30 publications

The effects of aging on Amyloid-β42-induced neurodegeneration and regeneration in adult zebrafish brain

The effects of aging on Amyloid-β42-induced neurodegeneration and regeneration in adult zebrafish brain

See-Thru-Gonad zebrafish line: developmental and functional validation

A Novel, Low-Cost Anesthesia and Injection System for Zebrafish Researchers

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