Donata Oertel

Professor
Mary Herman and Lucien Rubinstein Distinguished Chair of Neuroscience
Ph.D., 1975, University of California - Santa Barbara

Contact Information
Email: doertel@wisc.edu
(608) 263-6281 Phone1
(608) 263-4271 Phone2
(608) 265-5512 Fax

 
Research Interests
Cellular basis for the processing of acoustic information in the mammalian cochlear nuclei

Donata Oertel

Hearing tells us what is going on and where it happens. The ears only give us a running measure of the spectral content of sounds; where sounds arise and what they mean has to be computed by the brain. The effortlessness with which mammals perform this task disguises the feats that are performed. It is our goal to understand how neurons in the cochlear nuclear complex, the part of the brain that receives input from the ear from the auditory nerve, begin these computations and how these neuronal networks are altered by the loss of hearing.

We explore these questions by making electrophysiological recordings in vitro. The illustration (below) shows that the cochlear nuclear complex comprises an unlayered ventral cochlear nucleus and a layered dorsal cochlear nucleus whose circuits resemble the adjacent cerebellum. The properties of synapses and the biophysical properties of differ dramatically between neurons in the two regions. Synapses in the ventral cochlear nucleus show little plasticity and act on neurons that preserve the information contained in the timing of firing. Synapses in the outermost layer of the dorsal cochlear nucleus in contrast, are weakened or strengthened by coordinated activity. In mutant mice, the function of these neuronal circuits is altered. We are using mutant mice to learn how these neuronal networks change in animals.

In the cochlear nuclei we address questions at several different levels. At the cellular and molecular levels we seek to understand how synaptic function and biophysical properties of neurons are regulated. At the systems level we want to understand how the brain begins to extract information about the location and meaning of sounds. We also seek to gain a better understanding of how hearing loss affects the function of the neuronal networks in the cochlear nuclei.

Figure

Current Members of the Laboratory

  • Xiao Jie Cao, Ph.D., Norman Bethune Medical University 1998

Book Chapters and Reviews

  • Oertel D, Doupe AJ. 2013. The Auditory Central Nervous System in Principles of Neural Science, Fifth Edition, Kandel ER, Schwartz JH, Jessell TM, Siegelbaum SA, Hudspeth AJ Eds. McGraw Hill Medical, NY, Chapter 31 pp.682-711.
     
  • Golding N, Oertel D. 2012. Synaptic integration in dendrites: Exceptional need for speed. J Physiol. 590:5563-5569
     
  • Oertel D, Wright S, Cao X-J, Ferragamo M, Bal R. 2011. The multiple functions of T stellate/ multipolar/chopper cells in the ventral cochlear nucleus. Hearing Res 276:61-69
     
  • Oertel D. 2011. GluA4 sustains sensing of sounds through stable, speedy, sumptuous, spineless synapses. J Physiol (Lond) 589:4089-4090
     
  • Young,E.D., and Oertel,D. 2010. Cochlear Nucleus. In Handbook of Brain Microcircuits, G.M. Shepherd, and S. Grillner, eds. (New York: Oxford), pp. 215-223.
     
  • Oertel D, McGinley MJ, Cao XJ. 2009. Temporal processing in the auditory pathway. New Encyclopedia of Neuroscience (Squire LR editor) Oxford: Academic Press.
     
  • Oertel D, Young ED. 2004. What's a cerebellar circuit doing in the auditory system? TINS 27:104-110.
     
  • Young ED, Oertel D. 2003. The Cochlear Nucleus. In: Synaptic Organization of the Brain, GM Shepherd editor, Oxford University Press, NY, Chapter 4, pp125-163.
     
  • Oertel D. 2002. Integrative Functions in The Mammalian Auditory Pathway. Oertel D, Fay RR, Popper AN Eds. Springer Handbook for Auditory Research. Springer, NY.
     
  • Oertel, D., R. Bal, S.M. Gardner, P.H. Smith, and P.X. Joris. 2000. Detection of synchrony in the activity of auditory nerve fibers by octopus cells of the mammalian cochlear nucleus. PNAS 97:11773-11779.
    Full Text | Abstract
     

Selected Publications

  • Lu CC, Cao X-J, Wright S, Leung H, Ma L, Oertel D, Goodrich L. 2014. Mutation of Npr2 leads to blurred tonotopic organization of central auditory circuits in mice. PLoS Genet. 2014 Dec 4;10(12):e1004823. doi: 10.1371/journal.pgen.1004823. eCollection 2014 Dec. PubMed PMID: 25473838; PubMed Central PMCID: PMC4256264
     
  • Wright S, Hwang Y, Oertel D. 2014. Synaptic transmission between end bulbs of Held and bushy cells in the cochlear nucleus of mice with a mutation in Otoferlin. J Neurophysiol. 2014 Dec 15;112(12):3173-88. doi: 10.1152/jn.00522.2014. Epub 2014 Sep 24. PubMed PMID: 25253474; PubMed Central PMCID: PMC4269706.
     
  • McGinley MJ, Liberman MC, Bal R, Oertel D. 2012. Generating synchrony from the asynchronous: compensation for cochlear traveling wave delays by the dendrites of individual brainstem neurons. J Neurosci 32:9301-9311
     
  • Cao XJ, Oertel D. 2011. The magnitudes of hyperpolarization-activated (Ih) and low-voltage-activated potassium (IKL) currents co-vary in neurons of the ventral cochlear nucleus. J Neurophysiol 106:630-40
     
  • Cao X, Oertel D. 2010. Auditory nerve fibers excite targets through synapses that vary in convergence, strength and short-term plasticity. J Neurophysiol 104:2308-2320
     
  • Oertel D, Shatadal S, Cao X-J. 2008. In the ventral cochlear nucleus Kv1.1 and HCN1 are colocalized at surfaces of neurons that have low-voltage-activated and hyperpolarization-activated conductances. Neuroscience 154:77-86.PMCID: PMC2493296
     
  • Cao X-J, McGinley MJ, Oertel D. 2008. Connections and synaptic function in the posteroventral cochlear nucleus of deaf jerker mice. J Comp Neurol 510:297-308. PMCID: PMC2553045
     
  • Cao X-J, Shatadal S, Oertel D. 2007. Voltage-sensitive conductances of bushy cells of the mammalian ventral cochlear nucleus. J Neurophysiol 97:3961-3975.
    Full Text | Abstract | PDF
     
  • Bal R and Oertel D. 2007. Voltage-activated calcium currents in octopus cells of the mouse cochlear nucleus. JARO 8:411-562. PMCID: PMC2538346
     
  • McGinley MJ and Oertel D. 2006. Rate thresholds determine the precision of temporal integration in principal cells of the ventral cochlear nucleus. Hearing Res 216-217:52-63.
     
  • Rodrigues ARA and Oertel D. 2006. Hyperpolarization-activated currents regulate excitability in stellate cells of the mammalian ventral cochlear nucleus. J Neurophysiol 95:76-87.
    Full Text | Abstract | PDF
     
  • Cao X and Oertel D. 2005. Temperature affects voltage-sensitive conductances differentially in octopus cells of the mammalian cochlear nucleus. J Neurophysiol 94:821-832.
    Full Text | Abstract | PDF
     
  • Tzounopoulos T, Kim Y, Oertel D, Trussell LO. 2004. Cell-specific, spike timing-dependent plasticities in the dorsal cochlear nucleus. Nat Neurosci 7:719-725.
    Full Text
     
  • Fujino K, Oertel D. 2003. Bidirectional synaptic plasticity in the cerebellum-like mammalian dorsal cochlear nucleus. Proc Nat Acad Sci (USA) 100:265-270.
    Full Text | Abstract
     
  • Ferragamo MJ and Oertel D. 2002. Octopus cells of the mammalian ventral cochlear nucleus sense the dynamic properties of synaptic excitation. J. Neurophysiol.
    Full Text | Abstract
     
  • Fujino K and Oertel D 2001. Cholinergic modulation of stellate cells in the mammalian ventral cochlear nucleus. J. Neurosci 21:7372-7383.
    Full Text | Abstract
     
  • Gardner SM, Trussell LO, and Oertel D. 2001. Correlation of AMPA receptor subunit composition with synaptic input in the mammalian cochlear nuclei. J. Neurosci 21:7428-7437.
    Full Text | Abstract
     
  • Bal R and Oertel D. 2001. Potassium currents in octopus cells of the mammalian cochlear nucleus. J. Neurophysiol 86:2299-2311.
    Full Text | Abstract
     
  • Bal, R. and D. Oertel. 2000. Hyperpolarization-activated, mixed-cation current (Ih) in octopus cells of the mammalian cochlear nucleus. J. Neurophysiol. 84:806-817.
    Full Text | Abstract
     
  • Oertel, D., R. Bal, S.M. Gardner, P.H. Smith, and P.X. Joris. 2000. Detection of synchrony in the activity of auditory nerve fibers by octopus cells of the mammalian cochlear nucleus. PNAS 97:11773-11779.
     

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