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The innermost cell layer of the outer root sheath in anagen hair follicle: Light and electron microscopic study (1986)

Ito, M.

Springer

Archives of dermatological research 279 (1986), S. 112-119

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ISSN: 1432-069X

Keywords: Innermost cell layer ; Outer root sheath ; Anagen hair follicle ; Keratinization ; Light and electron microscopes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary To investigate cell differentiation in the outer root sheath (ORS) of the human anagen hair follicle, scalp skin specimens from individuals with normal hair were examined using light and electron microscopes. In the bulbar portion, the ORS was composed of two cell layers. The cells in the outer layer gradually increased in number upwards and finally underwent so-called trichilemmal keratinization, which proceeded toward the hair canal. On the other hand, the inner cells in the bulb formed a single cell layer along the outside of Henle's layer during cell differentiation; this unique layer was referred to as the innermost cell (IMC) layer of the ORS. With the use of hematoxylin and eosin stain, at the suprabulbar portion, where Henle's cells were keratinizing, an eosinophilic substance was deposited in the inner (Henle's) side of the IMC cytoplasm. The IMCs gradually became entirely eosinophilic and often produced keratohyaline granules. Ultrastructurally, the IMCs of the ORS showed an oblong shape forming a regularly arranged single-cell layer along the keratinizing Henle's layer and accumulated tonofilaments in the cytoplasm. They produced a few small electron-dense keratohyaline granules and were keratinized at the level at which Henle's layer still preserved its cell structure. From these findings, it is suggested that there are two types of keratinization of the ORS: trichilemmal keratinization and IMC keratinization.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00417531

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Long-term effects of 3-acetylpyridine-induced destruction of cerebellar climbing fibers on Purkinje cell inhibition of vestibulospinal tract cells of the rat (1987)

Karachot, L. ; Ito, M. ; Kanai, Y.

Springer

Experimental brain research 66 (1987), S. 229-246

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ISSN: 1432-1106

Keywords: 3-acetylpyridine ; Climbing fiber ; Inferior olive ; Vestibulospinal tract ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The inhibitory action of Purkinje cells on vestibulospinal tract (VST) cells was examined in rats deprived of climbing fibers with 3-acetylpyridine (3-AP) intoxication. In order to resolve discrepancies raised in previous studies with various means, special efforts were devoted to directly estimate Purkinje cell inhibition at synaptic levels by using intracellular recording, to avoid sampling bias by using a systematic survey of VST cells in each rat, and to evaluate the time-dependence of the effects of climbing fiber deafferentation by regular testing at 10 day intervals until 160 days after 3-AP intoxication. As compared with 661 VST cells impaled in 15 control rats, 1771 VST neurons impaled in 29 3-AP-treated rats revealed four basic changes in the monosynaptic inhibitory postsynaptic potentials (IPSPs) induced by stimulation of Purkinje cell axons in the white matter of the cerebellar anterior lobe. First, the rate of IPSP occurrence among VST cells was 0.64 in control rats; at more than 10 days after 3-AP intoxication it decreased gradually, down to 0.37–0.38 at the 70th–81st days, and thereafter increased up to 0.53 by the 160th day. The rate of IPSP occurrence varied considerably between the rostral and caudal regions, and also between the dorsal and ventral divisions of the VST cell population, but its reduction after 3-AP intoxication occurred approximately in parallel in all divisions. Second, IPSPs evoked with standard 500 μA pulse stimuli were smaller in size on and after day 10. The reduction of IPSP size was by as much as 53% of control values at the 70th–101st days in the dorsal division, but no significant change occurred in the ventral division of the VST cell population. Third, the latency of the IPSPs was prolonged by about 0.25 ms on and after day 10. Analysis of the relationship between the IPSP latency and the dorsoventral location of VST cells in the medulla suggests that the major cause for the prolongation of IPSP latency is an increased synaptic delay at Purkinje cell axon terminals. Fourth, the cerebellar stimulation threshold for evoking IPSPs was almost always below 100 μA in control rats, but values of 100–250 μA were common after the 40th day. Thus, climbing fiber deafferentation exerts long-term influences on excitability of Purkinje cell axons, and on the connectivity and synaptic transmission from Purkinje cell axons to VST cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00243301

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