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Early development of SI cortical barrel subfield representation of forelimb in normal and deafferented neonatal rat as delineated by peroxidase conjugated lectin, peanut agglutinin (PNA) (1990)

Waters, R. S. ; McCandlish, C. A. ; Cooper, N. G. F.

Springer

Experimental brain research 81 (1990), S. 234-240

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ISSN: 1432-1106

Keywords: Somatosensory cortex ; Lectin receptors ; Glia ; Barrel ; Forelimb ; Pattern formation ; Development ; Peanut agglutinin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Development of the barrel field representation of the forelimb in the primary somatosensory cortex (SI) was studied in normal and deafferented neonatal rat pups by means of the peroxidase conjugated lectin peanut agglutinin (PNA), which most likely binds to radial glial cells within barrel boundaries. 1. Alterations in lectin binding were seen in animals sacrificed on postnatal day 8 (PND-8) if deafferentation took place on PND-1 (day of birth) through PND-6. 2. Deafferentation on PND-5 or on PND-6 had the least effect on lectin binding. In these animals, lectin binding was reduced, although the prospective representation was intact. 3. Deafferentation on PND-2, 3, and 4 had the greatest effect on lectin binding. In these animals, lectin binding was reduced and the prospective cortical representation was disrupted. 4. Deafferentation on PND-1 resulted in reduced lectin binding, however the prospective cortical representation was only slightly impaired compared to that in animals deafferented on PND-2, 3, and 4. 5. These results suggest that SI barrel field boundaries are important to plasticity and that a sensitive period for predevelopment of the forelimb barrels consists of postnatal days 1 through 6. Furthermore, the formation of normal SI barrel field boundaries requires an ongoing interaction between incoming afferents and radial glial cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228112

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Early development of the representation of the body surface in SI cortex barrel field in neonatal rats as demonstrated with peanut agglutinin binding: evidence for differential development within the rattunculus (1989)

McCandlish, C. ; Waters, R. S. ; Cooper, N. G. F.

Springer

Experimental brain research 77 (1989), S. 425-431

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ISSN: 1432-1106

Keywords: Somatosensory cortex ; Differential development ; Lectin binding ; Vibrissae ; Forepaw ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Physiological studies have demonstrated a highly organized somatotopic representation of the body surface in SI cortex of rat. This representation is correlated morphologically with the presence of barrel-shaped structures in layer IV. Conventional staining techniques reveal barrels in the latter part of the first postnatal week. Recently, the peroxidase conjugates of lectins, which recognize glycosylated molecules, have been used to study barrel field formation. Con A, for example, has been shown to bind primarily to prospective barrel sides and septa as early as postnatal day 3 (PND-3) in mouse. To date, investigations of SI cortex using the lectin (Arachis hypogaea) peanut agglutinin (PNA) have been confined to the study of the barrel field representation of the face and mystacial vibrissae in the mouse. In the present study we extend these findings to the development of the representation of the entire body surface called the rattunculus. Rats ranging from PND-1 (first 24 h after birth) to PND-12 were anesthetized with Nembutal and perfused with 4% paraformaldehyde and 2% glutaraldehyde in 0.2 M sodium cacodylate buffer. Brains were removed, flattened tangentially, and sectioned on a vibratome at 30–120 microns. Sections were blocked in TRIS-buffered saline (TBS) plus 2% bovine serum albumin and incubated in peanut lectin at 4° C. Following incubation, sections were washed with TBS and processed using peroxidase histochemistry. Lectin binding in the prospective forelimb representation was apparent by PND-5 whereas lectin binding to the prospective face-mystacial vibrissae representation occurred before PND-4. These results suggest that body part representations show individual variations during early pattern formation. In rat, the representation of the limbs may lag behind the representation of the face-mystacial vibrissae during early postnatal development. This developmental gradient within the cortex may reflect a differential expression of lectin receptors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00275001

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Early development of the SI cortical barrel field representation in neonatal rats follows a lateral-to-medial gradient: an electrophysiological study (1993)

McCandlish, C. A. ; Li, C. X. ; Waters, R. S.

Springer

Experimental brain research 92 (1993), S. 369-374

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ISSN: 1432-1106

Keywords: Extracellular recording ; Barrel field ; Somatosensory cortex ; Differential development ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Development of the barrel field in layer IV of SI cortex of neonatal rats was studied in vivo using electrophysiological recording techniques. This study was designed to determine (a) the earliest time SI cortex is responsive to peripheral mechanical and/or electrical stimulation and (b) whether the development of the SI cortical barrel field map of the body surface follows a differential pattern of development similar to the pattern previously demonstrated using peanut agglutinin (PNA) binding (McCandlish et al. 1989). Carbon fiber microelectrodes were used to record evoked responses from within the depth of the cortex in neonatal rats between postnatal day 1 (PND-1), defined as the day of birth, and PND-14. Evoked responses were first recorded approximately 12 h after birth. These responses in the youngest animals were of low amplitude, monophasic waveshape, and long latency, with long interstimulus intervals necessary to drive the cortex. Increases in amplitude and complexity of waveshape and decreases in latency were observed over subsequent postnatal days. The earliest responses recorded on middle PND-1 were evoked by stimulation of the face and/or mystacial vibrissae. The next responses were evoked approximately 24 h after birth (late PND-1) by stimulation of the forelimb. The last responses were evoked approximately 36 h after birth (middle PND-2), by stimulation of the hindlimb. The physiological map of the representation of the body surface follows a developmental gradient similar to the gradient observed using PNA histochemistry; however, the lectin-generated morphological map lagged approximately 48 h behind the physiological map. The representation of the body surface appears to be topographically organized as early as PND-2. Our results suggest that thalamocortical afferents have reached the developing cortical plate and are functional before glial cells are first detected. These results do not sit well with a theory of barrel field development based entirely on the role of glia in pattern formation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00229024

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