J.E. Schroeder scite author profile

We report selective inhibition of low-threshold, T-type calcium channels by a phorbol ester in rat sensory neurons. Cells were exposed, either acutely or with 15–60 min preincubations, to low concentrations of phorbol 12-myristate 13-acetate, (PMA), an activator of protein kinase C; if the temperature was 29 degrees C or higher, T-type Ca current was diminished without effect on high-threshold Ca current. In untreated cells, the amplitude of T-type Ca current varies widely among neighboring sensory neurons. T channels are absent in about 25% of cells, provide a small current near threshold for the majority of cells, and are a dominant pathway for calcium entry in a small subset of neurons. The results are of interest because, by selectively inhibiting a calcium channel expressed differently among subpopulations of sensory neurons, activation of protein kinase C might selectively suppress particular sensations.

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Inhibition of Ca2+ currents by a mu-opioid in a defined subset of rat sensory neurons

Schroeder

McCleskey

1993

J. Neurosci.

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Activation of the endogenous opioid system can suppress pain without affecting other sensations, but the cellular mechanism of this selectivity is unclear. The analgesia might be due to inhibitory synapses arranged only on neurons whose activity leads to pain sensations. Alternatively, opioids might be released broadly, with neurons involved in pain sensation being especially sensitive. Therefore, we asked whether different subsets of rat dorsal root ganglion (DRG) sensory neurons vary in their sensitivity to opioids. Dissociated neurons were subdivided according to the spinal laminae to which they likely had projected, and whether they had innervated muscle. Using the patch-clamp method, we measured the inhibition of Ca2+ current by DAGO (Tyr-D-Ala-Gly-MePhe-Gly-ol), a peptide that selectively activates the mu (morphine) receptor. We also investigated the presence of different types of Ca2+ channels. In DRG neurons chosen at random, Ca2+ currents were inhibited by DAGO to widely varying degrees, with an average inhibition of 38%. Ca2+ currents in neurons in a subset that projects to laminae I and II had a lower average inhibition, and unlike the randomly selected cells, the responses were predictable and tightly distributed about the mean. This indicates that the variability of opioid sensitivity among DRG neurons reflects the presence of different subsets of cells. Since neurons projecting to laminae I and II, the projection site of nociceptive neurons, did not show high opioid sensitivity, there is no evidence that nociceptive neurons have stronger responses to opioids. But a firm conclusion is impossible because projection site does not strictly define sensory modality.

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Calcium in liquid ammonia for the reduction of benzyl ethers. Mechanistic clues derived from chemoselectivity studies

Hwu¹,

Chua²,

Schroeder³

et al. 1986

J. Org. Chem.

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S)-(+)-CH3CH(OH)(CH2)5CH3, 6169-06-8; (fi)-glyceraldehyde acetonide, 15186-48-8; 4(7?)-(l(S)-hydroxy-2-(trimethylsilyl)hept-2(Z)-en-l-yl)-2,2-dimethyl-l,3-dioxolane, 102357-26-6; (S)-(-)-2-acetoxyheptanol, 75584-25-7. Supplementary Material Available: Spectral data [IR, and 13C NMR, and [a]D] for 2-5 and their derivatives (3 pages). Ordering information is given on any current masthead page.

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Two components of high-threshold Ca2+ current inactivate by different mechanisms

Schroeder

Fischbach

Mamo

et al. 1990

Neuron

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J.E. Schroeder

Activation of μ opioid receptors inhibits transient high- and low-threshold Ca 2+ currents, but spares a sustained current

T-type calcium channels: heterogeneous expression in rat sensory neurons and selective modulation by phorbol esters

Inhibition of Ca2+ currents by a mu-opioid in a defined subset of rat sensory neurons

Calcium in liquid ammonia for the reduction of benzyl ethers. Mechanistic clues derived from chemoselectivity studies

Two components of high-threshold Ca2+ current inactivate by different mechanisms

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