Annabel Kean scite author profile

The spiny projection neurons are by far the most numerous type of striatal neuron. In addition to being the principal projection neurons of the striatum, the spiny projection neurons also have an extensive network of local axon collaterals by which they make synaptic connections with other striatal projection neurons. However, up to now there has been no direct physiological evidence for functional inhibitory interactions between spiny projection neurons. Here we present new evidence that striatal projection neurons are interconnected by functional inhibitory synapses. To examine the physiological properties of unitary inhibitory postsynaptic potentials (IPSPs), dual intracellular recordings were made from pairs of spiny projection neurons in brain slices of adult rat striatum. Synaptic interactions were found in 9 of 45 pairs of neurons using averages of 200 traces that were triggered by a single presynaptic action potential. In all cases, synaptic interactions were unidirectional, and no bidirectional interactions were detected. Unitary IPSPs evoked by a single presynaptic action potential had a peak amplitude ranging from 157 to 319 microV in different connections (mean: 277 +/- 46 microV, n = 9). The percentage of failures of single action potentials to evoke a unitary IPSP was estimated and ranged from 9 to 63% (mean: 38 +/- 14%, n = 9). Unitary IPSPs were reversibly blocked by bicuculline (n = 4) and had a reversal potential of -62.4 +/- 0.7 mV (n = 5), consistent with GABA-mediated inhibition. The findings of the present study correlate very well with anatomical evidence for local synaptic connectivity between spiny projection neurons and suggest that lateral inhibition plays a significant role in the information processing operations of the striatum.

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Cytokine profile of the rheumatoid nodule suggests that it is a Th1 granuloma

Hessian¹,

Highton²,

Kean³

et al. 2003

Arthritis & Rheumatism

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Objective. To define the cytokine profile within rheumatoid subcutaneous nodules, and to determine whether the destructive inflammatory process in this lesion displays features of a lymphocyte-driven Th1 or Th2 granuloma.Methods. Subcutaneous nodules excised from 10 patients with rheumatoid arthritis were examined. Conclusion. The cytokine profile within the rheumatoid nodule (i.e., presence of IFN␥ but not IL-2, and prominent expression of IL-1␤ and TNF␣ together with IL-12, IL-18, IL-15, and IL-10) is similar to the profile of cytokines in the synovial lesion of rheumatoid arthritis, which is generally accepted as being attributable to a Th1-mediated inflammatory mechanism. Our results suggest that damage to affected synovial membrane or subcutaneous tissue is caused by the same inflammatory mechanisms, and that the nodule is a Th1 granuloma.

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Cell death by apoptosis is a feature of the rheumatoid nodule

Highton

Hessian²,

Kean³

et al. 2003

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Localization of Putative Haemoglobin by Immunogold Staining in Artemia

Trotman

Kean

Tate

et al. 1989

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Annabel Kean

Inhibitory Interactions Between Spiny Projection Neurons in the Rat Striatum

Cytokine profile of the rheumatoid nodule suggests that it is a Th1 granuloma

Cell death by apoptosis is a feature of the rheumatoid nodule

Localization of Putative Haemoglobin by Immunogold Staining in Artemia

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