Abstract
The afferent and efferent connections of the vibrissal area of the rat motor cortex (VMCx) were investigated by injecting Phaseolus vulgaris leucoagglutinin (PHA-L) or wheat germ agglutinin-horseradish peroxidase into the physiologically defined VMCx. The VMCx formed reciprocal connections with the primary and secondary somatosensory cortex, lateral and ventrolateral orbital cortex, retrosplenial cortex, and perirhinal cortex. These corticocortical afferents originated from cell bodies in layers II–III and V, and some afferents originated from cell bodies in layer VI of the primary sensory cortex. All of the VMCx efferents terminated in layers I and V or layers I–III and V. The VMCx also formed reciprocal connections with the ventrolateral, ventromedial and centrolateral nucleus, the lateral portion of the mediodorsal nucleus and the posterior complex of the thalamus. It projected bilaterally to the caudate putamen, primarily ipsilaterally to the superior colliculus, anterior pretectal nucleus, and pontine nucleus, and mainly contralaterally to the oral part of the spinotrigeminal nucleus and the reticular formation around the facial nerve nucleus. Finally, injections of PHA-L into the superior colliculus demonstrated that this structure projected contralaterally to the lateral part of the facial nerve nucleus. These data suggest that the VMCx plays a key role in sensorimotor integration, through its extensive interconnectivity with numerous brain structures, and may modulate orientation behaviors by relaying processed information to the superior colliculus.
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References
Asanuma H, Larsen KD, Zarzecki P (1979) Peripheral input pathways projecting to the motor cortex in the cat. Brain Res 172:197–208
Asanuma H, Larsen K, Yumiya H (1980) Peripheral input pathways to the monkey motor cortex. Exp Brain Res 38:349–355
Chapin JK, Lin C-S (1990) The somatic sensory cortex of the rat. In: Kolb B, Tees RC (eds) The cerebral cortex of the rat. MIT, London, pp 341–380
Cicirata F, Angaut P, Cioni M, Serapide MF, Papale A (1986) Functional organization of thalamic projections to the motor cortex: an anatomical and electrophysiological study in the rat. Neuroscience 19:81–99
Donoghue JP, Parham C (1983) Afferent connections of the lateral agranular field of the rat motor cortex. J Comp Neurol 217:390–404
Hall RD, Lindholm EP (1974) Organization of motor and somatosensory neocortex in the albino rat. Brain Res 66:23–38
Huntley GW, Jones EG (1991) Relationship of intrinsic connections to forelimb movement representations in monkey motor cortex: a correlative anatomic and physiological study. J Neurophysiol 66:390–413
Keller A (1993a) Intrinsic organization of the motor cortex. Cerebral Cortex 3:430–441
Keller A (1993b) Patterns of intrinsic connections between motor representation zones in the cat motor cortex. Neuroreport 4:515–518
Keller A, Asanuma H (1993) Synaptic relationships involving local axon collaterals of pyramidal neurons in the cat motor cortex. J Comp Neurol 336:229–242
Kolb B (1990) Prefrontal cortex. In: Kolb B, Tees RC (eds) The cerebral cortex of the rat. MIT, London, pp 437–458
Li C-X, Waters RS (1991) Organization of the mouse motor cortex studied by retrograde tracing and intracortical microstimulation (ICMS) mapping. Can J Neurol Sci 18:28–38
McHaffie JG, Stein BE (1982) Eye movements evoked by electrical stimulation in the superior colliculus of rats and hamsters. Brain Res 247:243–253
Mesulam M-M (1978) Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction product with superior sensitivity for visualizing neural afferents and efferents. J Histochem Cytochem 26:106–117
Miyashita E, Asanuma H, Keller A (1992) Input-output organization of the rat vibrissae motor cortex (abstract). 22nd Annual Meeting of Society for Neuroscience, Anaheim, California, p 846
Neafsey EJ, Bold EL, Haas G, Hurley-Gius KM, Quirk G, Sievert CF, Terreberry RR (1986) The organization of the rat motor cortex: a microstimulation mapping study. Brain Res Rev 11:77–96
Paxinos G, Watson C (1986) The rat brain in stereotaxic coordinates, 2nd edn. Academic, San Diego
Porter LL (1992) Connections of vibrissal regions in rat sensorymotor cortex (abstract). 22nd Annual Meeting of Society for Neuroscience, Anaheim, California, p 846
Porter LL, White EL (1983) Afferent and efferent pathways of the vibrissal region of primary motor cortex in the mouse. J Comp Neurol 214:279–289
Travers JB, Norgren R (1983) Afferent projections to the oral motor nuclei in the rat. J Comp Neurol 220:280–298
Welker C (1971) Microelectrode delineation of fine grain somatotopic organization of SmI cerebral neocortex in albino rat. Brain Res 26:259–275
Welker C (1976) Receptive fields of barrels in the somatosensory neocortex of the rat. J Comp Neurol 166:173–190
Zilles K (1990) Anatomy of the neocortex: cytoarchitecture and myeloarchitecture. In: Kolb B, Tees RC (eds) The cerebral cortex of the rat. MIT, Cambridge, pp 77–112
Zimmerman EA, Chambers WW, Liu CN (1964) An experimental study of the anatomical organization of the cortico-bulbar system in the albino rat. J Comp Neurol 123:301–324
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Miyashita, E., Keller, A. & Asanuma, H. Input-output organization of the rat vibrissal motor cortex. Exp Brain Res 99, 223–232 (1994). https://doi.org/10.1007/BF00239589
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DOI: https://doi.org/10.1007/BF00239589