A quantitative study of the mechanosensory innervation of the salmander skin.

Cooper, Ellis; Diamond, Jack

doi:10.1113/jphysiol.1977.sp011690

Cited by 20 publications

(16 citation statements)

References 11 publications

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“…In the 6-day animal, however, changes in the distribution of the critical stimulus were clearly apparent; there were fewer low-threshold spots, many more in the higher stimulus range (thereby completely changing the shape of the histogram from its usual skewed distribution), and a significant increase in non-responsive spots. By day 7 about 95 % of the touch receptor population was not detectable with the largest stimuli we were able to apply with our mechanical stimulator (Cooper & Diamond, 1977).…”

Section: Nerve Sectionmentioning

confidence: 99%

“…In the preceding paper (Cooper & Diamond, 1977) we analysed the distributions of sensitivities of these mechanosensory endings to obtain a measure of their density in the skin. In the present report we use this information to examine the effects of colchicine on the mechanoreceptor function and distribution, both of the treated nerves and of the adjacent nerves supplying the skin of the salamander hind limb.…”

Section: Control Of Mechanoreceptor Densitymentioning

confidence: 99%

“…The (Diamond et al 1976). In the animals we now use the fields of 15 and 17 usually do share a common frontier, and field extension 'only rarely can be exploited; & Diamond, 1977) in a region of skin shared by the 15th and the 16th nerve was investigated after the 16th nerve on one side was treated with colchicine. There was no loss in the population of receptors feeding into the untreated 16th nerve, compared to the control 16th nerve (column A).…”

Section: Colchicine Blockmentioning

confidence: 99%

“…Our criterion for this rejection was based on the responses of the first fifteen points of the random survey made on the treated side; if ten or more of these were in the high-threshold 731 E. COOPER, J. DIAMOND AND C. TURNER range (requiring a stimulus of 2 5 ,tm/msec or greater) as compared to the normal side, in the skin of which only about three would fall into this category, the experiments were discontinued. In the remaining twelve animals both the experimental and the contralateral control nerve fields were investigated by the routine random survey technique (Cooper & Diamond, 1977). Fig.…”

Section: Colchicine Blockmentioning

confidence: 99%

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The effects of nerve section and of colchicine treatment on the density of mechanosensory nerve endings in salamander skin.

Cooper¹,

Diamond²,

Turner³

1977

The Journal of Physiology

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SUMMARYWe have shown that when one of the spinal nerves supplying the salamander hind limb is cut or treated with colchicine, the fields of the remaining nerves enlarge in area; whereas nerve section produces Wallerian degeneration, the colchicine-treated nerves conducted action potentials normally and their peripheral fields remained unchanged in area (Aguilar, Bisby, Cooper & Diamond, 1973). Since colchicine-treatment reduced neuronal transport, and nerve-section eliminated it, we proposed that nerve sprouting is regulated by factors normally conveyed to the endings by axoplasmic transport.1. We have now investigated the effects of colchicine on the thresholds and distribution of individual mechanosensory endings in the skin. If reduction of neuronal transport were enough to cause the threshold to be increased to the point of total unresponsiveness, then this could be a sign of an early stage of degeneration in those terminals. It could then be hypothesized that products of degeneration were providing a stimulus for adjacent nerves to sprout.2. Quantitative physiological studies of the effects of colchicine doses known to interfere with fast axoplasmic transport, indicate that in some experiments the terminal field of the treated nerve was invaded by sprouting fibres from neighbouring axons, when its own endings were unchanged in number, distribution and sensory thresholds. In other experiments the colchicine-treated nerve endings showed an increase in threshold but their function was otherwise unchanged; a similar adjacent nerve sprouting occurred. In a final group, colchicine caused total unresponsiveness of some endings of the treated nerve.3. When a region of skin was partially denervated by nerve section, the

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Section: Nerve Sectionmentioning

confidence: 99%

Section: Control Of Mechanoreceptor Densitymentioning

confidence: 99%

Section: Colchicine Blockmentioning

confidence: 99%

Section: Colchicine Blockmentioning

confidence: 99%

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The effects of nerve section and of colchicine treatment on the density of mechanosensory nerve endings in salamander skin.

Cooper¹,

Diamond²,

Turner³

1977

The Journal of Physiology

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“…But it introduces a new one: when competition modifies the competitive capacity, the fittest axon becomes so strong that it eliminates all the others. This competitive exclusion appears indeed to occur in certain situations, such as the elimination of polyneuronal innervation of muscle fibers during development [49,50] or the mosaic organization of skin innervation by rapidly adapting terminals in salamanders [51], but not in others such as the overlapping arrangement of axonal fields in the skin of frogs [52]. Moreover, this earlier model predicted that competitive exclusion would still occur even with very high levels of trophic factor production, implying that the total number of axons innervating a region would not be increased, but experiments involving the overexpression of neurotrophins in the skin have shown that innervation density does increase in the skin in general [46], and in touch domes in particular [19].…”

Section: Modeling Axonal Competition As a Determinant Of Neuronal Deathmentioning

confidence: 99%

Mathematical analysis of competition between sensory ganglion cells for neurotrophic factor in the skin

Kohli

Gabriel

Clarke

2004

Mathematical Biosciences

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A model is presented of competition between sensory axons for trophic molecules (e.g. a neurotrophin such as NGF), produced in a region of skin small enough to permit their free diffusion throughout it; e.g., a touch dome, or a vibrissal follicle hair sinus. The variables specified are the number of high affinity trophic factor receptors per axon terminal and the concentration of trophic factor in the extracellular space. Previous models of this class predicted the loss of all the axons innervating the region except the one requiring least trophic factor for its maintenance, even with high rates of trophic factor production. In the present model, we have imposed upper limits to axonal growth, thereby introducing new equilibria, and we show by a global analysis using LaSalleÕs theorem, and also by local analysis, that several axons can then coexist if the rate of production of trophic molecules is sufficiently high.

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Collateral reinnervation of sweat glands

Kennedy

Sakuta

1984

Annals of Neurology

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The collateral reinnervation of mouse sweat glands has been studied by a method that allows serial evaluation of the course of reinnervation in intact animals. The method is based on the finding that the activation of secretion from newly denervated sweat glands by pilocarpine or nerve stimulation is completely absent seven days after nerve section but returns with reinnervation. These characteristics allowed serial detection of footpad sweat glands newly reinnervated by collateral sprouting of the remaining intact saphenous nerve after section of the sciatic nerve. The number of saphenous innervated glands increased five- to sevenfold and the total saphenous sweat territory was greatly expanded across the volar surface of the hind paw. There was less enlargement when the sciatic nerve was allowed to regenerate and participate in reinnervation of sweat glands. None of the reinnervated glands were dually innervated by saphenous and sciatic nerves, as is the case in normal glands. When the saphenous nerve was sectioned after saphenous collateral sprouting was complete and after sciatic regeneration had innervated an apparent maximal number of glands, the sciatic nerve reacted by advancing farther into the formerly enlarged saphenous territory and re-reinnervated many of the glands. Collateral sprouting by sudomotor axons is more abundant and more widely dispersed than reported for larger nerve fibers to skeletal muscle and to low-threshold mechanoreceptors. It more closely resembles sprouting of nociceptive axons.

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A quantitative study of the mechanosensory innervation of the salmander skin.

Cited by 20 publications

References 11 publications

The effects of nerve section and of colchicine treatment on the density of mechanosensory nerve endings in salamander skin.

The effects of nerve section and of colchicine treatment on the density of mechanosensory nerve endings in salamander skin.

Mathematical analysis of competition between sensory ganglion cells for neurotrophic factor in the skin

Collateral reinnervation of sweat glands

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