Alfredo Franco scite author profile

Recent advances in understanding the molecular basis of human X-linked muscular dystrophies have come from the identification of dystrophin, a cytoskeletal protein associated with the surface membrane. Although there is little or virtually no dystrophin in affected individuals, it is not known how this causes muscle degeneration. One possibility is that the membrane of dystrophic muscle is weakened and becomes leaky to Ca2+. In muscle from mdx mice, an animal model of the human disease, intracellular Ca2+ is elevated and associated with a high rate of protein degradation. The possibility that a lack of dystrophin alters the resting permeability of skeletal muscle to Ca2+ prompted us to compare Ca2(+)-permeable ionic channels in muscle cells from normal and mdx mice. We now show that recordings of single-channel activity from mdx myotubes are dominated by the presence of Ca2(+)-permeable mechano-transducing ion channels. Like similar channels in normal skeletal muscle, they are rarely open at rest, but open when the membrane is stretched by applying suction to the electrode. Other channels in mdx myotubes, however, are often open for extended periods of time at rest and close when suction is applied to the electrode. The results show a novel type of mechano-transducing ion channel in mdx myotubes that could provide a pathway for Ca2+ to leak into the cell.

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Stretch‐sensitive channels in developing muscle cells from a mouse cell line.

Franco

Lansman

1990

The Journal of Physiology

110

121

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4. Channel openings occurred as bursts of brief openings and closings separated by much longer closed periods. Closed-time histograms were best fitted with three exponential components, while histograms of burst duration were best fitted with two exponential components, reflecting the short and long bursts in the single-channel records.5. Applying suction to the patch electrode while recording at steady negative membrane potentials produced channel openings to discrete current levels. Mean channel open probability depended linearly on the square of the applied pressure and was greater at positive membrane potentials. The permeability of the channel to monovalent and divalent cations was indistinguishable from the spontaneous activity recorded at steady negative potentials.6. Channel activity recorded from cell-attached patches in the absence of applied pressure depended on membrane potential increasing -e-fold per 38 mV with depolarization. Analysis of the kinetics of the response to membrane potential * To whom correspondence should be addressed. MS 7995A. FRANCO AND J. B. LANSMAN showed that the depolarization reduced the duration of the slowest component of the closed-time distribution.7. The lanthanide cation gadolinium (Gd) reduced the amplitude of the unitary currents in a concentration-dependent manner. The amplitudes of both inward and outward currents were reduced to the same extent suggesting block is voltageindependent. Gd produced half-maximal inhibition of the unitary current at 6 aM.8. The fraction of recordings from cell-attached patches showing stretch-activated and spontaneous channel activity was determined at morphologically identifiable stages of myogenesis. Stretch-sensitive activity was high in myoblasts plated at low density, but decreased during development. The fraction of patches showing spontaneous activity was low and remained constant during muscle differentiation.9. The results are discussed in terms of the possibility that cation channels in developing muscle cells are gated by changes in membrane tension and voltage. The role of Ca2+-permeable cation channels in providing a pathway for Ca2+ influx during the early stages of myogenesis is considered.

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Sibship size, birth order, and atopy in 11,371 Italian young men

Matricardi¹,

Franzinelli²,

Franco³

et al. 1998

Journal of Allergy and Clinical Immunology

151

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Properties of embryonic and adult muscle acetylcholine receptors transiently expressed in COS cells

Franco

Gardner

et al. 1990

Neuron

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Cholinergic modulation of an acetylcholine receptor-like antigen on the surface of chick ciliary ganglion neurons in cell culture

Smith¹,

Margiotta²,

Franco³

et al. 1986

J. Neurosci.

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Chick ciliary ganglion neurons have a membrane component that shares an antigenic determinant with the "main immunogenic region" of the alpha subunits in nicotinic ACh receptors from skeletal muscle and electric organ. Ultrastructural studies on antibody binding in the ganglion have shown that the cross-reacting antigen on the neuron surface is located predominantly in synaptic membrane. Biochemical studies have shown that the cross-reacting component has a number of other properties expected for the ganglionic nicotonic ACh receptor and that it is distinct from the alpha-bungarotoxin binding component in the tissue. Here we show that ciliary ganglion neurons grown in dissociated cell culture express a similar component that cross-reacts with monoclonal antibodies to ACh receptors, and that the number of antibody-binding sites on the neurons can be modulated by exposure to cholinergic agonists and a protein neurotoxin that reversibly inhibits ACh receptors on the neurons. In most, though not all, cases, levels of ACh sensitivity associated with the neurons are specifically comodulated in parallel with the changes in number of antibody binding sites. The results suggest that at least a portion of the cross-reacting sites on the surface of ciliary ganglion neurons is likely to represent nicotinic ACh receptors. The fact that in some instances levels of ACh sensitivity can be altered without changing the number of cross-reacting sites, however, leaves open the possibility that not all of the sites are associated with receptors or that the neurons can alter the proportion of receptors that is functional.

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Alfredo Franco

Calcium entry through stretch-inactivated ion channels in mdx myotubes

Stretch‐sensitive channels in developing muscle cells from a mouse cell line.

Sibship size, birth order, and atopy in 11,371 Italian young men

Properties of embryonic and adult muscle acetylcholine receptors transiently expressed in COS cells

Cholinergic modulation of an acetylcholine receptor-like antigen on the surface of chick ciliary ganglion neurons in cell culture

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