Citations to this article

Generating mouse models of degenerative diseases using Cre/lox-mediated in vivo mosaic cell ablation
Masato Fujioka, … , Hideyuki Okano, Albert S.B. Edge
Masato Fujioka, … , Hideyuki Okano, Albert S.B. Edge
Published May 16, 2011
Citation Information: J Clin Invest. 2011;121(6):2462-2469. https://doi.org/10.1172/JCI45081.
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Generating mouse models of degenerative diseases using Cre/lox-mediated in vivo mosaic cell ablation

Abstract

Most degenerative diseases begin with a gradual loss of specific cell types before reaching a threshold for symptomatic onset. However, the endogenous regenerative capacities of different tissues are difficult to study, because of the limitations of models for early stages of cell loss. Therefore, we generated a transgenic mouse line (Mos-iCsp3) in which a lox-mismatched Cre/lox cassette can be activated to produce a drug-regulated dimerizable caspase-3. Tissue-restricted Cre expression yielded stochastic Casp3 expression, randomly ablating a subset of specific cell types in a defined domain. The limited and mosaic cell loss led to distinct responses in 3 different tissues targeted using respective Cre mice: reversible, impaired glucose tolerance with normoglycemia in pancreatic β cells; wound healing and irreversible hair loss in the skin; and permanent moderate deafness due to the loss of auditory hair cells in the inner ear. These mice will be important for assessing the repair capacities of tissues and the potential effectiveness of new regenerative therapies.

Authors

Masato Fujioka, Hisashi Tokano, Keiko Shiina Fujioka, Hideyuki Okano, Albert S.B. Edge

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Citations to this article (14)

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Versatile cell ablation tools and their applications to study loss of cell functions
F Liu, S Dai, D Feng, X Peng, Z Qin, AC Kearns, W Huang, Y Chen, S Ergün, H Wang, J Rappaport, EC Bryda, A Chandrasekhar, B Aktas, H Hu, SL Chang, B Gao, X Qin 		Cellular and Molecular Life Sciences 2019
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ERK2 mediates inner hair cell survival and decreases susceptibility to noise-induced hearing loss
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Olivocochlear Innervation Maintains the Normal Modiolar-Pillar and Habenular-Cuticular Gradients in Cochlear Synaptic Morphology
Y Yin, LD Liberman, SF Maison, MC Liberman 		Journal of the Association for Research in Otolaryngology 2014
Neurotrophin-3 regulates ribbon synapse density in the cochlea and induces synapse regeneration after acoustic trauma: ( A ) RT-qPCR shows that postnatal tamoxifen injection reduces or increases Ntf3 mRNA levels in adult Ntf3 flox :Plp1/CreER T or Ntf3 stop :Plp1/CreER T inner ears, respectively; n = 5–6. *p < 0.05, **p < 0.01 by two-tailed unpaired t test. ( B and C ) Postnatal Ntf3 knockout (blue) or overexpression (red) from supporting cells does not alter VsEP thresholds ( B ) or their peak 1 (P1) amplitudes at 0 dB ( C ); n = 4–8. ( D – F ) Postnatal knockout or overexpression of Ntf3 from supporting cells reduces or enhances cochlear function, respectively. Ntf3 knockout (blue) elevates ABR thresholds ( E ) and decreases ABR P1 amplitudes ( F ), without changing DPOAE thresholds ( D ); n = 16–17. Ntf3 overexpression (red) reduces ABR thresholds ( E ) and increases ABR P1 amplitudes ( F ), without changing DPOAE thresholds ( D ); n = 21. ABR P1 amplitudes were assessed at 70 dB SPL. *p < 0.05, **p < 0.01, ***p < 0.001 by two-way ANOVA. ( G ) ABR P1 latencies are not affected by either Ntf3 knockout (blue) or Ntf3 overexpression (red) at all frequencies examined. Key in C applies to A – G . ( H ) Mean ABR waveforms from responses to 32 kHz tone pips from Ntf3 knockouts and their controls (upper) and Ntf3 overexpressors and their controls (lower). Gray shading indicates ABR wave 1. Both ABR P1 latencies ( G ) and waveforms ( H ) results were assessed at 70 dB SPL; n = 13–17
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Notch Inhibition Induces Cochlear Hair Cell Regeneration and Recovery of Hearing after Acoustic Trauma
K Mizutari, M Fujioka, M Hosoya, N Bramhall, HJ Okano, H Okano, AS Edge 		Neuron 2013
Conditional Gene Expression in the Mouse Inner Ear Using Cre-loxP
BC Cox, Z Liu, MM Lagarde, J Zuo 		Journal of the Association for Research in Otolaryngology 2012
Hair cell replacement in adult mouse utricles after targeted ablation of hair cells with diphtheria toxin
JS Golub, L Tong, TB Ngyuen, CR Hume, RD Palmiter, EW Rubel, JS Stone 		The Journal of neuroscience : the official journal of the Society for Neuroscience 2012
An In Vitro Model of Developmental Synaptogenesis Using Cocultures of Human Neural Progenitors and Cochlear Explants
BA Nayagam, AS Edge, K Needham, T Hyakumura, J Leung, DA Nayagam, M Dottori 		Stem Cells and Development 2012
The construction of transgenic and gene knockout/knockin mouse models of human disease
A Doyle, MP McGarry, NA Lee, JJ Lee 		Transgenic Research 2011

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