In vivo MR imaging of the seasonal volumetric and functional plasticity of song control nuclei in relation to song output in a female songbird

Van Meir, V.; Pavlova, D.; Verhoye, M.; Pinxten, R.; Balthazart, Jacques; Eens, M.; Van der Linden, A.

doi:10.1016/j.neuroimage.2006.01.005

Article (Scientific journals)

In vivo MR imaging of the seasonal volumetric and functional plasticity of song control nuclei in relation to song output in a female songbird

Van Meir, V.; Pavlova, D.; Verhoye, M. et al.

2006 • In NeuroImage, 31 (3), p. 981-992

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https://hdl.handle.net/2268/11039

DOI
10.1016/j.neuroimage.2006.01.005

PubMed
16529952

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Keywords :

seasonal plasticity; female; starling; songbird; song control nuclei; RA; area X; telencephalon; magnetic resonance imaging; manganese; ME-MRI

Abstract :

[en] In temperate zone songbird species, seasonal plasticity in the morphological and functional state of brain regions involved in song production occurs in association with seasonal changes in song output. Following MHCl2-injections in HVC (used as proper name) of female starlings, in vivo tract-tracing by Manganese Enhanced-Magnetic Resonance Imaging (ME-MRI) provided repeated measures of the volume of two HVC targets, the nucleus robustus arcopallii (RA) and area X, along with measures of the activity of the caudal motor pathway and rostral basal-ganglia pathway that control singing. Mn2+- labeling (volume labeled and signal intensity) of both nuclei was dramatically reduced in July (post-breeding season) when birds did not sing, compared to March (breeding season) when birds produced song. Seasonal changes in telencephalon volume did not exceed 4% and were not significant but were surprisingly correlated with individual measures of song rate and song bout length. Although individual song rates were variable in March, all MnCl2-injections led to a reliable labeling of area X and RA. In July, delineation of area X was only possible in two birds and RA could be delineated in 50% of the population; its volume had decreased by 46% as compared to March. The birds in which RA could be delineated in July had in March a higher activity of the HVC to area X projection as reflected by the total amount of Mn2+ accumulated in area X, which suggests unexpected relationships between the two types of HVC projection neurons. (c) 2006 Elsevier Inc. All rights reserved.

Disciplines :

Radiology, nuclear medicine & imaging
Neurosciences & behavior

Author, co-author :

Van Meir, V.

Pavlova, D.

Verhoye, M.

Pinxten, R.

Balthazart, Jacques ; Université de Liège - ULiège > Département des sciences biomédicales et précliniques > Biologie de la différenciation sexuelle du cerveau

Eens, M.

Van der Linden, A.

Language :

English

Title :

In vivo MR imaging of the seasonal volumetric and functional plasticity of song control nuclei in relation to song output in a female songbird

Publication date :

01 July 2006

Journal title :

NeuroImage

ISSN :

1053-8119

eISSN :

1095-9572

Publisher :

Academic Press Inc Elsevier Science, San Diego, United States - California

Volume :

Issue :

Pages :

981-992

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 13 April 2009

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Bibliography

Adret-Hausberger M., and Jenkins P.F. Complex organization of the warbling song in the European starling Sturnus vulgaris. Behaviour 107 (1988) 138-156
Airey D.C., and DeVoogd T.J. Greater song complexity is associated with augmented song system anatomy in zebra finches. NeuroReport 11 (2000) 2339-2344
Alvarez-Buylla A., and Kirn J.R. Birth, migration, incorporation, and death of vocal control neurons in adult songbirds. J. Neurobiol. 33 (1997) 585-601
Aoki I., Tanaka C., Takegami T., Ebisu T., Umeda M., Fukunaga M., Fukuda K., Silva A.C., Koretsky A.P., and Naruse S. Dynamic activity-induced manganese-dependent contrast magnetic resonance imaging (DAIM MRI). Magn. Reson. Med. 48 (2002) 927-933
Ball G.F., Auger C.J., Bernard D.J., Charlier T.D., Sartor J.J., Riters L.V., and Balthazart J. Seasonal plasticity in the song control system: multiple brain sites of steroid hormone action and the importance of variation in song behavior. Ann. N. Y. Acad. Sci. 1016 (2004) 586-610
Bernard D.J., Bentley G.E., Balthazart J., Turek F.W., and Ball G.F. Androgen receptor, estrogen receptor alpha, and estrogen receptor beta show distinct patterns of expression in forebrain song control nuclei of European starlings. Endocrinology 140 (1999) 4633-4643
Brenowitz E.A. Comparative approaches to the avian song system. J. Neurobiol. 33 (1997) 517-531
Brenowitz E.A. Plasticity of the adult avian song control system. Ann. N. Y. Acad. Sci. 1016 (2004) 560-585
Brenowitz E.A., and Beecher M.D. Song learning in birds: diversity and plasticity, opportunities and challenges. Trends Neurosci. 28 (2005) 127-132
Chaiken M., Bohner J., and Marler P. Song acquisition in European starlings, Sturnus vulgaris - a comparison of the songs of live-tutored, tape-tutored, untutored, and wild-caught males. Anim. Behav. 46 (1993) 1079-1090
Dawson A. Plasma gonadal-steroid levels in wild starlings (Sturnus vulgaris) during the annual cycle and in relation to the stages of the breeding season. Gen. Comp. Neurol. 49 (1983) 286-294
Deviche P., and Gulledge C.C. Vocal control region sizes of an adult female songbird change seasonally in the absence of detectable circulating testosterone concentrations. J. Neurobiol. 42 (2000) 202-211
DeVoogd T.J. Where is the bird?. Ann. N.Y. Acad. Sci. 1016 (2004) 778-786
DeVoogd T.J., Krebs J.R., Healy S.D., and Purvis A. Relations between song repertoire size and the volume of brain nuclei related to song: comparative evolutionary analyses amongst oscine birds. Proc. R. Soc. Lond., B Biol. Sci. 254 (1993) 75-82
Duong T.Q., Silva A.C., Lee S.P., and Kim S.G. Functional MRI of calcium-dependent synaptic activity: cross correlation with CBF and BOLD measurements. Magn. Reson. Med. 43 (2000) 383-392
Eens M. Understanding the complex song of the European Starling: an integrated ethological approach. Adv. Study Behav. 26 (1997) 355-434
Eens M., Pinxten R., and Verheyen R.F. Organization of song in the European starling: species-specificity and individual differences. Belg. J. Zool. 121 (1991) 257-278
Eens M., Pinxten R., and Verheyen R.F. Male song as a cue for mate choice in the European Starling. Behaviour 116 (1991) 210-238
Eens M., Pinxten R., and Verheyen R.F. Function of the song and song repertoire in the European starling (Sturnus vulgaris): an aviary experiment. Behaviour 125 (1993) 51-66
Feare C.J. The Starling (1984), Oxford Univ. Press, Oxford
Garamszegi L.Z., and Eens M. Brain space for a learned task: strong intraspecific evidence for neural correlates of singing behavior in songbirds. Brain Res. Rev. 44 (2004) 187-193
Hausberger M., and Black J.M. Female song in European starlings: the case of non-competitive song-matching. Ethol. Ecol. Evol. 3 (1991) 337-344
Heimovics S.A., and Riters L.V. Immediate early gene activity in song control nuclei and brain areas regulating motivation relates positively to singing behavior during, but not outside of, a breeding context. J. Neurobiol. 65 (2005) 207-224
Henry L., and Hausberger M. Differences in the social context of song production in captive male and female European starlings. C. R. Acad. Sci. III 324 (2001) 1167-1174
Hessler N.A., and Doupe A.J. Singing-related neural activity in a dorsal forebrain-basal ganglia circuit of adult zebra finches. J. Neurosci. 19 (1999) 10461-10481
Holzenberger M., Jarvis E.D., Chong C., Grossman M., Nottebohm F., and Scharff C. Selective expression of insulin-like growth factor II in the songbird brain. J. Neurosci. 17 (1997) 6974-6987
Jarvis E.D., Scharff C., Grossman M.R., Ramos J.A., and Nottebohm F. For whom the bird sings: context-dependent gene expression. Neuron 21 (1998) 775-788
Johnson F., and Bottjer S.W. Differential estrogen accumulation among populations of projection neurons in the higher vocal center of male canaries. J. Neurobiol. 26 (1995) 87-108
Kirn J.R., Clower R.P., Kroodsma D.E., and Devoogd T.J. Song-related brain regions in the red-winged blackbird are affected by sex and season but not repertoire size. J. Neurobiol. 20 (1989) 139-163
Li X.C., Jarvis E.D., Alvarez-Borda B., Lim D.A., and Nottebohm F. A relationship between behavior, neurotrophin expression, and new neuron survival. Proc. Natl. Acad. Sci. U. S. A. 97 (2000) 8584-8589
Lin Y.J., and Koretsky A.P. Manganese ion enhances T1-weighted MRI during brain activation: an approach to direct imaging of brain function. Magn. Reson. Med. 38 (1997) 378-388
Liu W.C., and Nottbohm F. Variable rate of singing and variable song duration are associated with high immediate early gene expression in two anterior forebrain song nuclei. Proc. Natl. Acad. Sci. U. S. A. 102 (2005) 10724-10729
MacDougall-Shackleton S.A., and Ball G.F. Comparative studies of sex differences in the song-control system of songbirds. Trends Neurosci. 22 (1999) 432-436
MacDougall-Shackleton S.A., Hulse S.H., and Ball G.F. Neural correlates of singing behavior in male zebra finches (Taeniopygia guttata). J. Neurobiol. 36 (1998) 421-430
Mountjoy D.J., and Lemon R.E. Extended song learning in wild European starlings. Anim. Behav. 49 (1995) 357-366
Nottebohm F., Stokes T.M., and Leonard C.M. Central control of song in the canary, Serinus canarius. J. Comp. Neurol. 165 (1976) 457-486
Pautler R.G., and Koretsky A.P. Tracing odor-induced activation in the olfactory bulbs of mice using manganese-enhanced magnetic resonance imaging. NeuroImage 16 (2002) 441-448
Pautler R.G., Silva A.C., and Koretsky A.P. In vivo neuronal tract tracing using manganese-enhanced magnetic resonance imaging. Magn. Reson. Med. 40 (1998) 740-748
Pavlova D., Pinxten R., and Eens M. Female song in European starlings: sex differences, complexity, and composition. The Condor 107 (2005) 558-568
Reiner A., Perkel D.J., Bruce L.L., Butler A.B., Csillag A., Kuenzel W., Medina L., Paxinos G., Shimizu T., Striedter G., Wild M., Ball G.F., Durand S., Gunturkun O., Lee D.W., Mello C.V., Powers A., White S.A., Hough G., Kubikova L., Smulders T.V., Wada K., Dugas-Ford J., Husband S., Yamamoto K., Yu J., Siang C., and Jarvis E.D. Avian Brain Nomenclature Forum., Revised nomenclature for avian telencephalon and some related brainstem nuclei. J. Comp. Neurol. 31 473 (2004) 377-414
Riters L.V., Eens M., Pinxten R., and Ball G.F. Seasonal changes in the densities of alpha(2) noradrenergic receptors are inversely related to changes in testosterone and the volumes of song control nuclei in male European starlings. J. Comp. Neurol. 444 (2002) 63-74
Riters L.V., Schroeder M.B., Auger C.J., Eens M., Pinxten R., and Ball G.F. Evidence for opioid involvement in the regulation of song production in male European starlings (Sturnus vulgaris). Behav. Neurosci. 119 (2005) 245-255
Saleem K.S., Pauls J.M., Augath M., Trinath T., Prause B.A., Hashikawa T., and Logothetis N.K. Magnetic resonance imaging of neuronal connections in the macaque monkey. Neuron 34 (2002) 685-700
Sartor J.J., and Ball G.F. Social suppression of song is associated with a reduction in volume of a song-control nucleus in European starlings (Sturnus vulgaris). Behav. Neurosci. 119 (2005) 233-244
Scharff C., and Nottebohm F. A comparative study of the behavioral deficits following lesions of various parts of the zebra finch song system: implications for vocal learning. J. Neurosci. 11 (1991) 2896-2913
Scharff C., Kirn J.R., Grossman M., Macklis J.D., and Nottebohm F. Targeted neuronal death affects neuronal replacement and vocal behavior in adult songbirds. Neuron 25 (2000) 481-492
Simpson H.B., and Vicario D.S. Brain pathways for learned and unlearned vocalizations differ in zebra finches. J. Neurosci. 10 (1990) 1541-1556
Sohrabji F., Nordeen K.W., and Nordeen E.J. Projections of androgen-accumulating neurons in a nucleus controlling avian song. Brain Res. 488 (1989) 253-259
Stokes T.M., Leonard C.M., and Nottebohm F. The telencephalon, diencephalon, and mesencephalon of the canary, Serinus canaria, in stereotaxic coordinates. J. Comp. Neurol. 156 (1974) 337-374
Székely T., Catchpole C.K., DeVoogd A., Marchl Z., and DeVoogd T. Evolutionary changes in a song control area of the brain (HVC) are associated with evolutionary changes in song repertoire among European warblers (Sylviidae). Proc. R. Soc. Lond., B 263 (1996) 607-610
Tramontin A.D., and Brenowitz E.A. Seasonal plasticity in the adult brain. Trends Neurosci. 23 (2000) 251-258
Van der Linden A., Verhoye M., Van Auderkerke J., Peeters R., Eens M., Newman S.W., Smulders T., Balthazart J., and DeVoogd T.J. Non invasive in vivo anatomical studies of the oscine brain by high resolution MRI microscopy. J. Neurosci. Methods 81 (1998) 45-52
Van der Linden A., Verhoye M., Van Meir V., Tindemans I., Eens M., Absil P., and Balthazart J. In vivo manganese-enhanced magnetic resonance imaging reveals connections and functional properties of the songbird vocal control system. Neuroscience 112 (2002) 467-474
Van der Linden A., Van Meir V., Tindemans I., Verhoye M., and Balthazart J. Applications of manganese-enhanced magnetic resonance imaging (MEMRI) to image brain plasticity in song birds. NMR Biomed. 17 (2004) 602-612
Van Meir V., Verhoye M., Absil P., Eens M., Balthazart J., and Van der Linden A. Differential effects of testosterone on neuronal populations and their connections in a sensorimotor brain nucleus controlling song production in songbirds: a manganese enhanced-magnetic resonance imaging study. NeuroImage 21 (2004) 914-923
Van Meir V., Boumans T., De Groof G., Van Audekerke J., Smolders A., Scheunders P., Sijbers J., Verhoye M., Balthazart J., and Van der Linden A. Spatiotemporal properties of the BOLD response in the songbirds' auditory circuit during a variety of listening tasks. NeuroImage 25 (2005) 1242-1255
Ward B.C., Nordeen E.J., and Nordeen K.W. Individual variation in neuron number predicts differences in the propensity for avian vocal imitation. Proc. Natl. Acad. Sci. U. S. A. 95 (1998) 1277-1282
Watanabe T., Michaelis T., and Frahm J. Mapping of retinal projections in the living rat using high-resolution 3D gradient-echo MRI with Mn2+-induced contrast. Magn. Reson. Med. 46 (2001) 424-429
Yu A.C., and Margoliash D. Temporal hierarchical control of singing in birds. Science 273 (1996) 1871-1875