The synthesis of a photolabile derivative of inositol-1,4,5-trisphosphate (IP3) is described. This new caged second messenger (6-ortho-nitroveratryl)-IP3 (6-NV-IP3) has an extinction coefficient of 5000 M(-1) cm(-1) at 350 nm, and a quantum yield of photolysis of 0.12. Therefore, 6-NV-IP3 is photolyzed with UV light about three times more efficiently than the widely used P(4(5))-1-(2-nitrophenyl)ethyl-caged IP3 (NPE-IP3). 6-NV-IP3 has a two-photon cross-section of about 0.035 GM at 730 nm. This absorbance is sufficiently large for effective two-photon excitation in living cells at modest power levels. Using near-IR light (5 mW, 710 nm, 80 MHz, pulse-width 70 fs), we produced focal bursts of IP3 in HeLa cells, as revealed by laser-scanning confocal imaging of intracellular Ca2+ concentrations. Therefore, 6-NV-IP3 can be used for efficient, subcellular photorelease of IP3, not only in cultured cells but also, potentially, in vivo. It is in the latter situation that two-photon photolysis should reveal its true forte.
We investigated the contribution of large conductance calcium-activated potassium (BK) channels to spontaneous activity of cerebellar Purkinje neurons. In Purkinje neurons which fire tonically block of BK channels increased the firing rate and caused the neurons to fire irregularly. In Purkinje neurons which exhibited a trimodal pattern of activity, present primarily in mature animals, block of BK channels had little effect on firing rate or regularity but shortened the single cycle duration of the trimodal pattern. The contribution of BK channels to the action potential waveform was also examined. BK channels contributed a brief afterhyperpolarization (AHP) of approximately 3 mV which followed each action potential, but made little contribution to action potential repolarization. The amplitude of the BK-dependent AHP did not change with age although there was an increase in the total AHP. The difference in the contribution of BK channels to the firing rate among the two populations of Purkinje neurons was the consequence of the decrease in the fractional contribution of BK channels to the AHP. We also found that block of BK channels increases intracellular calcium concentration during spontaneous firing. Thus, although BK channels do not affect action potential repolarization, they nevertheless control calcium entry with each action potential by contributing to the AHP.
The purpose of this study was to identify the complement of metabotropic glutamate receptors (mGluRs) expressed in nodose ganglia and the nucleus tractus solitarius (NTS). mRNA from these tissues was isolated and amplified with standard RT-PCR with primers specific for each mGluR subtype. The results of this analysis showed that the NTS expresses all eight mGluR subtypes, whereas nodose ganglia express only group III mGluRs: mGluR4, mGluR6, mGluR7, and mGluR8. Application of the group III-specific mGluR agonist L-(+)-2-amino-4-phosphonobutyric acid (100 microM) reversibly inhibited voltage-gated calcium currents isolated from DiI-labeled aortic baroreceptor neurons and unlabeled nodose neurons. The results of this study suggest that group III mGluRs are the primary mGluR subtype expressed in visceral afferent neurons and that these receptors may be involved in afferent central transmission.
Liver dysfunction is common in allogeneic bone marrow graft recipients, but no systematic studies of pre- and posttransplantation liver biopsies have been performed to identify and compare hepatic lesions. This study involved 25 consecutive patients who had undergone serial viral screening tests, liver tests, and pre- and posttransplantation liver biopsy. The aims were to ascertain the origin of liver disorders prior to bone marrow transplantation, to determine the mechanism and severity of liver dysfunction occurring early after transplantation, and to identify a possible relationship between pre-existing liver lesions and the frequency and nature of early liver dysfunction after transplantation. Pretransplantation biochemical liver tests were abnormal in 72% of patients, despite the absence of clinical liver disease. Eleven patients had chronic viral hepatitis B or C. Mild or moderate histological lesions were present in all the patients, with bile duct abnormalities in 48%, central vein abnormalities in 24%, sinusoidal fibrosis in 52%, portal fibrosis in 88%, portal necrosis in 52%, and parenchymal siderosis in 76%. After transplantation, fatal veno-occlusive disease occurred in two patients and biochemical abnormalities occurred in 24. Coded review of needle biopsy specimens failed to provide a single diagnosis. Histological lesions differed between pre- and posttransplantation biopsy specimens only by increased iron overload (96%, P<0.01). We conclude that pretransplant liver lesions contribute to hepatic dysfunction early after bone marrow transplantation, being very similar in nature and degree to lesions observed posttransplantation.
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