Robert Banks - Academia.edu (original) (raw)
Papers by Robert Banks
The Journal of Physiology
The Journal of Physiology
The Journal of Physiology
Progress in brain research
Journal of anatomy, 2015
All sensory receptors adapt, i.e. they constantly adjust their sensitivity to external stimuli to... more All sensory receptors adapt, i.e. they constantly adjust their sensitivity to external stimuli to match the current demands of the natural environment. Electrophysiological responses of sensory receptors from widely different modalities seem to exhibit common features related to adaptation, and these features can be used to examine the underlying sensory transduction mechanisms. Among the principal senses, mechanosensation remains the least understood at the cellular level. To gain greater insights into mechanosensory signalling, we investigated if mechanosensation displayed adaptive dynamics that could be explained by similar biophysical mechanisms in other sensory modalities. To do this, we adapted a fly photoreceptor model to describe the primary transduction process for a stretch-sensitive mechanoreceptor, taking into account the viscoelastic properties of the accessory muscle fibres and the biophysical properties of known mechanosensitive channels (MSCs). The model's output...
Progress in Brain Research, 1976
Page 82. Studies of the Histochemistry, infrastructure, Motor Innervation, and Regeneration of Ma... more Page 82. Studies of the Histochemistry, infrastructure, Motor Innervation, and Regeneration of Mammalian Intrafusal Muscle Fibres DAVID BARKER, ROBERT W. BANKS, DAVID W. HARKER, ALICE MILBURN and MICHAEL ...
The Journal of physiology, 1978
1. Eleven cat tenuissimus spindles have been analysed mainly by cutting serial, transverse, 1 mic... more 1. Eleven cat tenuissimus spindles have been analysed mainly by cutting serial, transverse, 1 micrometer thick sections following direct observation of the effects of dynamic motor (gamma or beta) stimulation. 2. Histological results from these spindles were also used to interpret the effects of static fusimotor stimulation of other spindles. 3. Dynamic motor stimulation usually produced contractions seen as convergent movements of sarcomeres in single bag fibres, identified as bag1 fibres for reasons given in the text. 4. In one spindle a single dynamic axon produced a translational movement in one pole of a bag1 fibre and a convergent movement in each pole of a bag2 fibre, together with movements in other unidentified (presumably chain) fibres. Subsequent analysis showed that besides innervating both bag fibres the axon also supplied two chain fibres. 5. Contrary to expectation, motor endings on the bag1 fibres seldom occurred at the sites of convergent movement. Only two cases of...
The Journal of physiology, 1989
1. We have made quantitative assessments of the sensory reinnervation and recovery of peroneus br... more 1. We have made quantitative assessments of the sensory reinnervation and recovery of peroneus brevis muscle spindles following section and epineurial repair of the common peroneal nerve. After 6-50 weeks recovery, single-unit, dorsal-root recordings were made of the responses to ramp-and-hold or sinusoidal stretch of the reinnervated spindles, which were subsequently examined in teased, silver preparations. 2. Assessments of recovery used data obtained from cross-union experiments in which foreign afferents (including Ib) were given the opportunity of reinnervating spindles in the absence of their native (Ia, spindle II) afferents; and from an examination of tenuissimus spindles reinnervated by Ia and spindle II afferents in the absence of Ib afferents. These studies revealed: (i) that regenerating Ib afferents can terminate in sites originally occupied by the endings of Ia or spindle II afferents, and respond to stretch like normal Ia and spindle II afferents; (ii) that Ib and spi...
The Journal of physiology, 1991
1. The distribution of static gamma-axons within and among muscle spindles of the tenuissimus mus... more 1. The distribution of static gamma-axons within and among muscle spindles of the tenuissimus muscle has been studied in the anaesthetized cat, on the basis of the effects on the responses of primary endings when bag2 or chain fibres or both are activated by static gamma-stimulation. 2. Locations of spindles were marked for subsequent histological analysis using teased, silver-impregnated preparations. 3. Static effects were classified into: (i) biassing; (ii) driving; or (iii) indeterminate categories. 4. Critical correlations established that the biassing type was produced by bag2 activity, either alone or in combination with chain fibres, whereas the driving type was produced by chain fibres active alone. Indirect evidence suggested that indeterminate effects were produced by bag2 and chain fibres active together. 5. The static gamma-axons showed some differential distribution according to their conduction velocities: faster-conducting axons were likely to be more widely distribu...
Journal of anatomy, 1996
Superficial lumbrical spindles of the cat show several important differences as compared with the... more Superficial lumbrical spindles of the cat show several important differences as compared with the classic picture of the spindle, derived principally from tenuissimus. Thus long chain fibres occur in a high proportion of superficial lumbrical spindles, and there is great individual variation in the number of bag fibres present. This study is especially concerned with the morphology and relationships of the bag1, fibre, which are again highly unusual. Most notably, bag1 fibres were almost always the longest intrafusal fibres, typically exceeding bag2 fibres by about 2 mm in total length. They also commonly exhibited the greatest diameter, especially in the extracapsular region where, uniquely, they normally increased in size on leaving the capsule, often becoming similar to extrafusal fibres in this respect. In a few spindles where there was only a single bag fibre this was more often a bag1 than is the case for similar spindles in tenuissimus, and in tandem-linked spindles the conti...
Journal of neurophysiology, 1999
The possibility of using randomly generated stimulus intervals (with a Poisson distribution) to i... more The possibility of using randomly generated stimulus intervals (with a Poisson distribution) to identify the type(s) of intrafusal fiber activated by the stimulation of single static gamma axons was tested in Peroneus tertius muscle spindles of anesthetized cats. Three patterns of random stimulation with different values of mean intervals [20 +/- 4. 47, 30 +/- 8.94, and 40 +/- 8.94 (SD) ms] were used. Single static gamma axons activating, in single spindles, either the bag2 fiber alone or the chain fibers alone or both types of intrafusal fiber were prepared. Responses of spindle primary endings elicited by the stimulation of gamma axons were recorded from Ia fibers in cut dorsal root filaments. Cross-correlograms between stimuli and spikes of the primary ending responses, autocorrelograms, interval histograms of responses, and stimulations were built. The characteristics of cross-correlograms were found to be related not only to the type of intrafusal muscle fibers activated but al...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 18, 2015
Mechanoreception is an essential feature of many sensory modalities. Nevertheless, the mechanisms... more Mechanoreception is an essential feature of many sensory modalities. Nevertheless, the mechanisms that govern the conversion of a mechanical force to distinct patterns of action potentials remain poorly understood. Proprioceptive mechanoreceptors reside in skeletal muscle and inform the nervous system of the position of body and limbs in space. We show here that Whirlin/Deafness autosomal recessive 31 (DFNB31), a PDZ-scaffold protein involved in vestibular and auditory hair cell transduction, is also expressed by proprioceptive sensory neurons (pSNs) in dorsal root ganglia in mice. Whirlin localizes to the peripheral sensory endings of pSNs and facilitates pSN afferent firing in response to muscle stretch. The requirement of Whirlin in both proprioceptors and hair cells suggests that accessory mechanosensory signaling molecules define common features of mechanoreceptive processing across sensory systems.
PLoS ONE, 2014
Processes underlying mechanotransduction and its regulation are poorly understood. Inhibitors of ... more Processes underlying mechanotransduction and its regulation are poorly understood. Inhibitors of Ca 2+ -activated K + channels cause a dramatic increase in afferent output from stretched muscle spindles. We used immunocytochemistry to test for the presence and location of small conductance Ca 2+ -activated K + channels (SK1-3) in primary endings of muscle spindles and lanceolate endings of hair follicles in the rat. Tissue sections were double immunolabelled with antibodies to one of the SK channel isoforms and to either synaptophysin (SYN, as a marker of synaptic like vesicles (SLV), present in many mechanosensitive endings) or S100 (a Ca 2+ -binding protein present in glial cells). SK channel immunoreactivity was also compared to immunolabelling for the Na + ion channel ASIC2, previously reported in both spindle primary and lanceolate endings. SK1 was not detected in sensory terminals of either muscle spindles or lanceolate endings. SK2 was found in the terminals of both muscle spindles and lanceolate endings, where it colocalised with the SLV marker SYN (spindles and lanceolates) and the satellite glial cell (SGC) marker S100 (lanceolates). SK3 was not detected in muscle spindles; by contrast it was present in hair follicle endings, expressed predominantly in SGCs but perhaps also in the SGC: terminal interface, as judged by colocalisation statistical analysis of SYN and S100 immunoreactivity. The possibility that all three isoforms might be expressed in pre-terminal axons, especially at heminodes, cannot be ruled out. Differential distribution of SK channels is likely to be important in their function of responding to changes in intracellular [Ca 2+ ] thereby modulating mechanosensory transduction by regulating the excitability of the sensory terminals. In particular, the presence of SK2 throughout the sensory terminals of both kinds of mechanoreceptor indicates an important role for an outward Ca 2+ -activated K + current in the formation of the receptor potential in both types of ending.
Pflügers Archiv - European Journal of Physiology, 2014
The focus of this review is on the principal sensory ending of the mammalian muscle spindle, know... more The focus of this review is on the principal sensory ending of the mammalian muscle spindle, known as the primary ending. The process of mechanosensory transduction in the primary ending is examined under five headings: (i) action potential responses to defined mechanical stimulirepresenting the ending's input-output properties; (ii) the receptor potential-including the currents giving rise to it; (iii) sensory-terminal deformation-measurable changes in the shape of the primary-ending terminals correlated with intrafusal sarcomere length, and what may cause them; (iv) putative stretch-sensitive channels-pharmacological and immunocytochemical clues to their identity; and (v) synapticlike vesicles-the physiology and pharmacology of an intrinsic glutamatergic system in the primary and other mechanosensory endings, with some thoughts on the possible role of the system. Thus, the review highlights spindle stretchevoked output is the product of multi-ionic receptor currents plus complex and sophisticated regulatory gain controls, both positive and negative in nature, as befits its status as the most complex sensory organ after the special senses.
Sensory terminals of muscle spindles and similar mechanosensory neurons contain large numbers of ... more Sensory terminals of muscle spindles and similar mechanosensory neurons contain large numbers of 50 nm, "synaptic-like" vesicles (SLVs), about whose role very little is known. Using fluorescence microscopy, immunocytochemistry and electrophysiological recording, we present evidence that SLVs undergo a recycling process, and that they release glutamate that has an autogenic excitatory effect on mechanosensory transduction, probably involving a metabotropic receptor linked to phospholipase D. The rate of recycling of SLVs is activity dependent, at least in part, as shown by an increased rate of destaining of preparations labelled with FMI-43 during high-frequency, small-amplitude vibration. Immunogold labelling showed levels of glutamate-like reactivity in the sensory terminals at least as great as in probable Ia presynaptic terminals in the spinal cord. Exogenously applied glutamate has an excitatory effect on the spindle's response to stretch, which is blocked by 3,5-dihydroxyphenylglycine.
The Journal of Physiology, 2010
We investigated whether channels of the epithelial sodium/amiloride-sensitive degenerin (ENaC/DEG... more We investigated whether channels of the epithelial sodium/amiloride-sensitive degenerin (ENaC/DEG) family are a major contributor to mechanosensory transduction in primary mechanosensory afferents, using adult rat muscle spindles as a model system. Stretch-evoked afferent discharge was reduced in a dose-dependent manner by amiloride and three analogues -benzamil, 5-(N -ethyl-N -isopropyl) amiloride (EIPA) and hexamethyleneamiloride (HMA), reaching ≥85% inhibition at 1 mm. Moreover, firing was slightly but significantly increased by ENaC δ subunit agonists (icilin and capsazepine). HMA's profile of effects was distinct from that of the other drugs. Amiloride, benzamil and EIPA significantly decreased firing (P < 0.01 each) at 1 μm, while 10 μm HMA was required for highly significant inhibition (P < 0.0001). Conversely, amiloride, benzamil and EIPA rarely blocked firing entirely at 1 mm, whereas 1 mm HMA blocked 12 of 16 preparations. This pharmacology suggests low-affinity ENaCs are the important spindle mechanotransducer. In agreement with this, immunoreactivity to ENaC α, β and γ subunits was detected both by Western blot and immunocytochemistry. Immunofluorescence intensity ratios for ENaC α, β or γ relative to the vesicle marker synaptophysin in the same spindle all significantly exceeded controls (P < 0.001). Ratios for the related brain sodium channel ASIC2 (BNaC1α) were also highly significantly greater (P < 0.005). Analysis of confocal images showed strong colocalisation within the terminal of ENaC/ASIC2 subunits and synaptophysin. This study implicates ENaC and ASIC2 in mammalian mechanotransduction. Moreover, within the terminals they colocalise with synaptophysin, a marker for the synaptic-like vesicles which regulate afferent excitability in these mechanosensitive endings.
The Journal of Physiology, 2005
Fifty-nanometre diameter, clear, synaptic-like vesicles (SLVs) are found in primary mechanosensor... more Fifty-nanometre diameter, clear, synaptic-like vesicles (SLVs) are found in primary mechanosensory nerve terminals of vertebrate and invertebrate animals. We have investigated their role in mechanosensory function using the muscle spindle primary endings of rat Ia afferents as a model. Uptake and release of the synaptic vesicle marker FM1-43 indicated that SLVs recycle like synaptic vesicles and do so in a Ca 2+ -sensitive manner. Mechanical stimulation increased SLV recycling, increasing both dye uptake and release. Immunogold/electronmicroscopy showed that, like the central synaptic endings, Ia peripheral endings are enriched with glutamate. Moreover, exogenous glutamate enhanced stretch-induced Ia excitability. Enhanced excitability persisted in the presence of antagonists to the commonest ionotropic and metabotropic glutamate receptors (kynurenate, MCPG, CPPG and MAP4).
The Journal of Physiology
The Journal of Physiology
The Journal of Physiology
Progress in brain research
Journal of anatomy, 2015
All sensory receptors adapt, i.e. they constantly adjust their sensitivity to external stimuli to... more All sensory receptors adapt, i.e. they constantly adjust their sensitivity to external stimuli to match the current demands of the natural environment. Electrophysiological responses of sensory receptors from widely different modalities seem to exhibit common features related to adaptation, and these features can be used to examine the underlying sensory transduction mechanisms. Among the principal senses, mechanosensation remains the least understood at the cellular level. To gain greater insights into mechanosensory signalling, we investigated if mechanosensation displayed adaptive dynamics that could be explained by similar biophysical mechanisms in other sensory modalities. To do this, we adapted a fly photoreceptor model to describe the primary transduction process for a stretch-sensitive mechanoreceptor, taking into account the viscoelastic properties of the accessory muscle fibres and the biophysical properties of known mechanosensitive channels (MSCs). The model's output...
Progress in Brain Research, 1976
Page 82. Studies of the Histochemistry, infrastructure, Motor Innervation, and Regeneration of Ma... more Page 82. Studies of the Histochemistry, infrastructure, Motor Innervation, and Regeneration of Mammalian Intrafusal Muscle Fibres DAVID BARKER, ROBERT W. BANKS, DAVID W. HARKER, ALICE MILBURN and MICHAEL ...
The Journal of physiology, 1978
1. Eleven cat tenuissimus spindles have been analysed mainly by cutting serial, transverse, 1 mic... more 1. Eleven cat tenuissimus spindles have been analysed mainly by cutting serial, transverse, 1 micrometer thick sections following direct observation of the effects of dynamic motor (gamma or beta) stimulation. 2. Histological results from these spindles were also used to interpret the effects of static fusimotor stimulation of other spindles. 3. Dynamic motor stimulation usually produced contractions seen as convergent movements of sarcomeres in single bag fibres, identified as bag1 fibres for reasons given in the text. 4. In one spindle a single dynamic axon produced a translational movement in one pole of a bag1 fibre and a convergent movement in each pole of a bag2 fibre, together with movements in other unidentified (presumably chain) fibres. Subsequent analysis showed that besides innervating both bag fibres the axon also supplied two chain fibres. 5. Contrary to expectation, motor endings on the bag1 fibres seldom occurred at the sites of convergent movement. Only two cases of...
The Journal of physiology, 1989
1. We have made quantitative assessments of the sensory reinnervation and recovery of peroneus br... more 1. We have made quantitative assessments of the sensory reinnervation and recovery of peroneus brevis muscle spindles following section and epineurial repair of the common peroneal nerve. After 6-50 weeks recovery, single-unit, dorsal-root recordings were made of the responses to ramp-and-hold or sinusoidal stretch of the reinnervated spindles, which were subsequently examined in teased, silver preparations. 2. Assessments of recovery used data obtained from cross-union experiments in which foreign afferents (including Ib) were given the opportunity of reinnervating spindles in the absence of their native (Ia, spindle II) afferents; and from an examination of tenuissimus spindles reinnervated by Ia and spindle II afferents in the absence of Ib afferents. These studies revealed: (i) that regenerating Ib afferents can terminate in sites originally occupied by the endings of Ia or spindle II afferents, and respond to stretch like normal Ia and spindle II afferents; (ii) that Ib and spi...
The Journal of physiology, 1991
1. The distribution of static gamma-axons within and among muscle spindles of the tenuissimus mus... more 1. The distribution of static gamma-axons within and among muscle spindles of the tenuissimus muscle has been studied in the anaesthetized cat, on the basis of the effects on the responses of primary endings when bag2 or chain fibres or both are activated by static gamma-stimulation. 2. Locations of spindles were marked for subsequent histological analysis using teased, silver-impregnated preparations. 3. Static effects were classified into: (i) biassing; (ii) driving; or (iii) indeterminate categories. 4. Critical correlations established that the biassing type was produced by bag2 activity, either alone or in combination with chain fibres, whereas the driving type was produced by chain fibres active alone. Indirect evidence suggested that indeterminate effects were produced by bag2 and chain fibres active together. 5. The static gamma-axons showed some differential distribution according to their conduction velocities: faster-conducting axons were likely to be more widely distribu...
Journal of anatomy, 1996
Superficial lumbrical spindles of the cat show several important differences as compared with the... more Superficial lumbrical spindles of the cat show several important differences as compared with the classic picture of the spindle, derived principally from tenuissimus. Thus long chain fibres occur in a high proportion of superficial lumbrical spindles, and there is great individual variation in the number of bag fibres present. This study is especially concerned with the morphology and relationships of the bag1, fibre, which are again highly unusual. Most notably, bag1 fibres were almost always the longest intrafusal fibres, typically exceeding bag2 fibres by about 2 mm in total length. They also commonly exhibited the greatest diameter, especially in the extracapsular region where, uniquely, they normally increased in size on leaving the capsule, often becoming similar to extrafusal fibres in this respect. In a few spindles where there was only a single bag fibre this was more often a bag1 than is the case for similar spindles in tenuissimus, and in tandem-linked spindles the conti...
Journal of neurophysiology, 1999
The possibility of using randomly generated stimulus intervals (with a Poisson distribution) to i... more The possibility of using randomly generated stimulus intervals (with a Poisson distribution) to identify the type(s) of intrafusal fiber activated by the stimulation of single static gamma axons was tested in Peroneus tertius muscle spindles of anesthetized cats. Three patterns of random stimulation with different values of mean intervals [20 +/- 4. 47, 30 +/- 8.94, and 40 +/- 8.94 (SD) ms] were used. Single static gamma axons activating, in single spindles, either the bag2 fiber alone or the chain fibers alone or both types of intrafusal fiber were prepared. Responses of spindle primary endings elicited by the stimulation of gamma axons were recorded from Ia fibers in cut dorsal root filaments. Cross-correlograms between stimuli and spikes of the primary ending responses, autocorrelograms, interval histograms of responses, and stimulations were built. The characteristics of cross-correlograms were found to be related not only to the type of intrafusal muscle fibers activated but al...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 18, 2015
Mechanoreception is an essential feature of many sensory modalities. Nevertheless, the mechanisms... more Mechanoreception is an essential feature of many sensory modalities. Nevertheless, the mechanisms that govern the conversion of a mechanical force to distinct patterns of action potentials remain poorly understood. Proprioceptive mechanoreceptors reside in skeletal muscle and inform the nervous system of the position of body and limbs in space. We show here that Whirlin/Deafness autosomal recessive 31 (DFNB31), a PDZ-scaffold protein involved in vestibular and auditory hair cell transduction, is also expressed by proprioceptive sensory neurons (pSNs) in dorsal root ganglia in mice. Whirlin localizes to the peripheral sensory endings of pSNs and facilitates pSN afferent firing in response to muscle stretch. The requirement of Whirlin in both proprioceptors and hair cells suggests that accessory mechanosensory signaling molecules define common features of mechanoreceptive processing across sensory systems.
PLoS ONE, 2014
Processes underlying mechanotransduction and its regulation are poorly understood. Inhibitors of ... more Processes underlying mechanotransduction and its regulation are poorly understood. Inhibitors of Ca 2+ -activated K + channels cause a dramatic increase in afferent output from stretched muscle spindles. We used immunocytochemistry to test for the presence and location of small conductance Ca 2+ -activated K + channels (SK1-3) in primary endings of muscle spindles and lanceolate endings of hair follicles in the rat. Tissue sections were double immunolabelled with antibodies to one of the SK channel isoforms and to either synaptophysin (SYN, as a marker of synaptic like vesicles (SLV), present in many mechanosensitive endings) or S100 (a Ca 2+ -binding protein present in glial cells). SK channel immunoreactivity was also compared to immunolabelling for the Na + ion channel ASIC2, previously reported in both spindle primary and lanceolate endings. SK1 was not detected in sensory terminals of either muscle spindles or lanceolate endings. SK2 was found in the terminals of both muscle spindles and lanceolate endings, where it colocalised with the SLV marker SYN (spindles and lanceolates) and the satellite glial cell (SGC) marker S100 (lanceolates). SK3 was not detected in muscle spindles; by contrast it was present in hair follicle endings, expressed predominantly in SGCs but perhaps also in the SGC: terminal interface, as judged by colocalisation statistical analysis of SYN and S100 immunoreactivity. The possibility that all three isoforms might be expressed in pre-terminal axons, especially at heminodes, cannot be ruled out. Differential distribution of SK channels is likely to be important in their function of responding to changes in intracellular [Ca 2+ ] thereby modulating mechanosensory transduction by regulating the excitability of the sensory terminals. In particular, the presence of SK2 throughout the sensory terminals of both kinds of mechanoreceptor indicates an important role for an outward Ca 2+ -activated K + current in the formation of the receptor potential in both types of ending.
Pflügers Archiv - European Journal of Physiology, 2014
The focus of this review is on the principal sensory ending of the mammalian muscle spindle, know... more The focus of this review is on the principal sensory ending of the mammalian muscle spindle, known as the primary ending. The process of mechanosensory transduction in the primary ending is examined under five headings: (i) action potential responses to defined mechanical stimulirepresenting the ending's input-output properties; (ii) the receptor potential-including the currents giving rise to it; (iii) sensory-terminal deformation-measurable changes in the shape of the primary-ending terminals correlated with intrafusal sarcomere length, and what may cause them; (iv) putative stretch-sensitive channels-pharmacological and immunocytochemical clues to their identity; and (v) synapticlike vesicles-the physiology and pharmacology of an intrinsic glutamatergic system in the primary and other mechanosensory endings, with some thoughts on the possible role of the system. Thus, the review highlights spindle stretchevoked output is the product of multi-ionic receptor currents plus complex and sophisticated regulatory gain controls, both positive and negative in nature, as befits its status as the most complex sensory organ after the special senses.
Sensory terminals of muscle spindles and similar mechanosensory neurons contain large numbers of ... more Sensory terminals of muscle spindles and similar mechanosensory neurons contain large numbers of 50 nm, &amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;quot;synaptic-like&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;quot; vesicles (SLVs), about whose role very little is known. Using fluorescence microscopy, immunocytochemistry and electrophysiological recording, we present evidence that SLVs undergo a recycling process, and that they release glutamate that has an autogenic excitatory effect on mechanosensory transduction, probably involving a metabotropic receptor linked to phospholipase D. The rate of recycling of SLVs is activity dependent, at least in part, as shown by an increased rate of destaining of preparations labelled with FMI-43 during high-frequency, small-amplitude vibration. Immunogold labelling showed levels of glutamate-like reactivity in the sensory terminals at least as great as in probable Ia presynaptic terminals in the spinal cord. Exogenously applied glutamate has an excitatory effect on the spindle&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;#39;s response to stretch, which is blocked by 3,5-dihydroxyphenylglycine.
The Journal of Physiology, 2010
We investigated whether channels of the epithelial sodium/amiloride-sensitive degenerin (ENaC/DEG... more We investigated whether channels of the epithelial sodium/amiloride-sensitive degenerin (ENaC/DEG) family are a major contributor to mechanosensory transduction in primary mechanosensory afferents, using adult rat muscle spindles as a model system. Stretch-evoked afferent discharge was reduced in a dose-dependent manner by amiloride and three analogues -benzamil, 5-(N -ethyl-N -isopropyl) amiloride (EIPA) and hexamethyleneamiloride (HMA), reaching ≥85% inhibition at 1 mm. Moreover, firing was slightly but significantly increased by ENaC δ subunit agonists (icilin and capsazepine). HMA's profile of effects was distinct from that of the other drugs. Amiloride, benzamil and EIPA significantly decreased firing (P < 0.01 each) at 1 μm, while 10 μm HMA was required for highly significant inhibition (P < 0.0001). Conversely, amiloride, benzamil and EIPA rarely blocked firing entirely at 1 mm, whereas 1 mm HMA blocked 12 of 16 preparations. This pharmacology suggests low-affinity ENaCs are the important spindle mechanotransducer. In agreement with this, immunoreactivity to ENaC α, β and γ subunits was detected both by Western blot and immunocytochemistry. Immunofluorescence intensity ratios for ENaC α, β or γ relative to the vesicle marker synaptophysin in the same spindle all significantly exceeded controls (P < 0.001). Ratios for the related brain sodium channel ASIC2 (BNaC1α) were also highly significantly greater (P < 0.005). Analysis of confocal images showed strong colocalisation within the terminal of ENaC/ASIC2 subunits and synaptophysin. This study implicates ENaC and ASIC2 in mammalian mechanotransduction. Moreover, within the terminals they colocalise with synaptophysin, a marker for the synaptic-like vesicles which regulate afferent excitability in these mechanosensitive endings.
The Journal of Physiology, 2005
Fifty-nanometre diameter, clear, synaptic-like vesicles (SLVs) are found in primary mechanosensor... more Fifty-nanometre diameter, clear, synaptic-like vesicles (SLVs) are found in primary mechanosensory nerve terminals of vertebrate and invertebrate animals. We have investigated their role in mechanosensory function using the muscle spindle primary endings of rat Ia afferents as a model. Uptake and release of the synaptic vesicle marker FM1-43 indicated that SLVs recycle like synaptic vesicles and do so in a Ca 2+ -sensitive manner. Mechanical stimulation increased SLV recycling, increasing both dye uptake and release. Immunogold/electronmicroscopy showed that, like the central synaptic endings, Ia peripheral endings are enriched with glutamate. Moreover, exogenous glutamate enhanced stretch-induced Ia excitability. Enhanced excitability persisted in the presence of antagonists to the commonest ionotropic and metabotropic glutamate receptors (kynurenate, MCPG, CPPG and MAP4).