OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

PLOS ONE 2013

A Tet-On System for DRD1-Expressing Cells

DOI: 10.1371/journal.pone.0072681

Fayi Yao, Paul D. Walker, Robert G. MacKenzie

Full-Text Cite this paper Add to My Lib

Abstract:

Cells expressing the dopamine D1 receptor (DRD1) have significant functional roles in diverse physiological processes including locomotion and drug addiction. The present work presents a novel in vivo DRD1-Bacterial Artificial Chromosome (BAC) Tet-on system allowing for the inducible activation of tet-operated transgenes specifically within DRD1-expressing cells of transgenic mice. It is shown that the DRD1-rtTA BAC-driven expression of a tet-operated reporter is under tight regulation by doxycycline and is restricted to DRD1-expressing brain regions. The model will be a useful research tool in studies of movement and reward and associated pathologies such as Parkinson’s disease and addiction.

References

[1]	Kebabian JW, Calne DB (1979) Multiple receptors for dopamine. Nature 277: 93-96. doi:10.1038/277093a0. PubMed: 215920.
[2]	Kreitzer AC (2009) Physiology and pharmacology of striatal neurons. Annu Rev Neurosci 32: 127-147. doi:10.1146/annurev.neuro.051508.135422. PubMed: 19400717.
[3]	Gerfen CR, Surmeier DJ (2011) Modulation of striatal projection systems by dopamine. Annu Rev Neurosci 34: 441-466. doi:10.1146/annurev-neuro-061010-113641. PubMed: 21469956.
[4]	Beaulieu JM, Gainetdinov RR (2011) The physiology, signaling, and pharmacology of dopamine receptors. Pharmacol Rev 63: 182-217. doi:10.1124/pr.110.002642. PubMed: 21303898.
[5]	Murer MG, Moratalla R (2011) Striatal Signaling in L-DOPA-Induced Dyskinesia: Common Mechanisms with Drug Abuse and Long Term Memory Involving D1 Dopamine Receptor Stimulation. Front Neuroanat 5: 51. PubMed: 21886608.
[6]	Feyder M, Bonito-Oliva A, Fisone G (2011) L-DOPA-Induced Dyskinesia and Abnormal Signaling in Striatal Medium Spiny Neurons: Focus on Dopamine D1 Receptor-Mediated Transmission. Front Behav Neuroscience 5: 71. PubMed: 22028687.
[7]	Heusner CL, Palmiter RD (2005) Expression of mutant NMDA receptors in dopamine D1 receptor-containing cells prevents cocaine sensitization and decreases cocaine preference. J Neurosci Off J Soc Neurosci 25: 6651-6657. doi:10.1523/JNEUROSCI.1474-05.2005. PubMed: 16014726.
[8]	Heusner CL, Beutler LR, Houser CR, Palmiter RD (2008) Deletion of GAD67 in dopamine receptor-1 expressing cells causes specific motor deficits. Genesis 46: 357-367. doi:10.1002/dvg.20405. PubMed: 18615733.
[9]	Hikida T, Kimura K, Wada N, Funabiki K, Nakanishi S (2010) Distinct roles of synaptic transmission in direct and indirect striatal pathways to reward and aversive behavior. Neuron 66: 896-907. doi:10.1016/j.neuron.2010.05.011. PubMed: 20620875.
[10]	Taniguchi M, Carreira MB, Smith LN, Zirlin BC, Neve RL et al. (2012) Histone deacetylase 5 limits cocaine reward through cAMP-induced nuclear import. Neuron 73: 108-120. doi:10.1016/j.neuron.2011.10.032. PubMed: 22243750.
[11]	Gong S, Zheng C, Doughty ML, Losos K, Didkovsky N et al. (2003) A gene expression atlas of the central nervous system based on bacterial artificial chromosomes. Nature 425: 917-925. doi:10.1038/nature02033. PubMed: 14586460.
[12]	Shuen JA, Chen M, Gloss B, Calakos N (2008) Drd1a-tdTomato BAC transgenic mice for simultaneous visualization of medium spiny neurons in the direct and indirect pathways of the basal ganglia. J Neurosci Off J Soc Neurosci 28: 2681-2685. doi:10.1523/JNEUROSCI.5492-07.2008. PubMed: 18337395.
[13]	Valjent E, Bertran-Gonzalez J, Hervé D, Fisone G, Girault JA (2009) Looking BAC at striatal signaling: cell-specific analysis in new transgenic mice. Trends Neurosci 32: 538-547. doi:10.1016/j.tins.2009.06.005. PubMed: 19765834.
[14]	Gong S, Doughty M, Harbaugh CR, Cummins A, Hatten ME et al. (2007) Targeting Cre recombinase to specific neuron populations with bacterial artificial chromosome constructs. J Neurosci Off J Soc Neurosci 27: 9817-9823. doi:10.1523/JNEUROSCI.2707-07.2007. PubMed: 17855595.
[15]	Parkitna JR, Bilbao A, Rieker C, Engblom D, Piechota M et al. (2010) Loss of the serum response factor in the dopamine system leads to hyperactivity. FASEB J 24: 2427-2435. doi:10.1096/fj.09-151423. PubMed: 20223941.
[16]	Fleming MD, Campagna DR, Haslett JN, Trenor CC 3rd, Andrews NC (2001) A mutation in a mitochondrial transmembrane protein is responsible for the pleiotropic hematological and skeletal phenotype of flexed-tail (f/f) mice. Genes Dev 15: 652-657. doi:10.1101/gad.873001. PubMed: 11274051.
[17]	Liu P, Jenkins NA, Copeland NG (2003) A highly efficient recombineering-based method for generating conditional knockout mutations. Genome Res 13: 476-484. doi:10.1101/gr.749203. PubMed: 12618378.
[18]	Baron U, Bujard H (2000) Tet repressor-based system for regulated gene expression in eukaryotic cells: principles and advances. Methods Enzymol 327: 401-421. doi:10.1016/S0076-6879(00)27292-3. PubMed: 11044999.
[19]	Copeland NG, Jenkins NA, Court DL (2001) Recombineering: a powerful new tool for mouse functional genomics. Nat Rev Genet 2: 769-779. doi:10.1038/35093556. PubMed: 11584293.
[20]	Leshan RL, Opland DM, Louis GW, Leinninger GM, Patterson CM et al. (2010) Ventral tegmental area leptin receptor neurons specifically project to and regulate cocaine- and amphetamine-regulated transcript neurons of the extended central amygdala. J Neurosci Off J Soc Neurosci 30: 5713-5723. doi:10.1523/JNEUROSCI.1001-10.2010. PubMed: 20410123.
[21]	Ade KK, Wan Y, Chen M, Gloss B, Calakos N (2011) An Improved BAC Transgenic Fluorescent Reporter Line for Sensitive and Specific Identification of Striatonigral Medium Spiny Neurons. Front Systems Neuroscience 5: 32. PubMed: 21713123.
[22]	Parkitna JR, Engblom D, Schütz G (2009) Generation of Cre recombinase-expressing transgenic mice using bacterial artificial chromosomes. Methods Mol Biol 530: 325-342. doi:10.1007/978-1-59745-471-1_17. PubMed: 19266340.
[23]	Zhu P, Aller MI, Baron U, Cambridge S, Bausen M et al. (2007) Silencing and un-silencing of tetracycline-controlled genes in neurons. PLOS ONE 2: e533. doi:10.1371/journal.pone.0000533. PubMed: 17579707.
[24]	Chuhma N, Tanaka KF, Hen R, Rayport S (2011) Functional connectome of the striatal medium spiny neuron. J Neurosci Off J Soc Neurosci 31: 1183-1192. doi:10.1523/JNEUROSCI.3833-10.2011. PubMed: 21273403.
[25]	Taverna S, Ilijic E, Surmeier DJ (2008) Recurrent collateral connections of striatal medium spiny neurons are disrupted in models of Parkinson’s disease. J Neurosci Off J Soc Neurosci 28: 5504-5512. doi:10.1523/JNEUROSCI.5493-07.2008. PubMed: 18495884.
[26]	Watabe-Uchida M, Zhu L, Ogawa SK, Vamanrao A, Uchida N (2012) Whole-brain mapping of direct inputs to midbrain dopamine neurons. Neuron 74: 858-873. doi:10.1016/j.neuron.2012.03.017. PubMed: 22681690.
[27]	Gerfen CR (1992) The neostriatal mosaic: multiple levels of compartmental organization. Trends Neurosci 15: 133-139. doi:10.1016/0166-2236(92)90355-C. PubMed: 1374971.
[28]	Mayford M, Bach ME, Huang YY, Wang L, Hawkins RD et al. (1996) Control of memory formation through regulated expression of a CaMKII transgene. Science 274: 1678-1683. doi:10.1126/science.274.5293.1678. PubMed: 8939850.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133