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Selective Target (selective + target)

Distribution by Scientific Domains
Life Sciences75%

Selected Abstracts

Spatial separation of endothelial small- and intermediate-conductance calcium-activated potassium channels (KCa) and connexins: possible relationship to vasodilator function?

JOURNAL OF ANATOMY, Issue 5 2006
Shaun L. Sandow
Abstract Activation of endothelial cell small- (S) and intermediate- (I) conductance calcium-activated potassium channels (KCa) and current or molecular transfer via myoendothelial gap junctions underlies endothelium-derived hyperpolarization leading to vasodilation. The mechanism underlying the KCa component of vasodilator activity and the characteristics of gap junctions are targets for the selective control of vascular function. In the rat mesenteric artery, where myoendothelial gap junctions and connexin (Cx) 40 are critical for the transmission of the endothelial cell hyperpolarization to the smooth muscle, SKCa and IKCa provide different facets of the endothelium-derived hyperpolarization response, being critical for the hyperpolarization and repolarization phases, respectively. The present study addressed the question of whether this functional separation of responses may be related to the spatial localization of the associated channels? The distribution of endothelial SKCa and IKCa and Cx subtype(s) were examined in the rat mesenteric artery using conventional confocal and high-resolution ultrastructural immunohistochemistry. At the internal elastic lamina,smooth muscle cell interface at internal elastic lamina holes (as potential myoendothelial gap junction sites), strong punctate IKCa, Cx37 and Cx40 expression was present. SKCa, Cx37, Cx40 and Cx43 were localized to adjacent endothelial cell gap junctions. High-resolution immunohistochemistry demonstrated IKCa and Cx37-conjugated gold to myoendothelial gap junction-associated endothelial cell projections. Clear co-localization of KCa and Cxs suggests a causal relationship between their activity and the previously described differential functional activation of SKCa and IKCa. Such precise localizations may represent a selective target for control of vasodilator function and vascular tone. [source]

The transcription factor ATF5: role in neurodevelopment and neural tumors

JOURNAL OF NEUROCHEMISTRY, Issue 1 2009
Lloyd A. Greene
Abstract We review recent findings regarding the properties of ATF5 and the major roles that this transcription factor plays in development of the nervous system and in survival of neural tumors. ATF5 is a widely expressed basic leucine zipper protein that has been subject to limited characterization. It is highly expressed in zones of neuroprogenitor cell proliferation. In vitro and in vivo studies indicate that it functions there to promote neuroprogenitor cell expansion and to suppress their differentiation into neurons or glia. ATF5 expression is down-regulated by trophic factors and this is required for their capacity to promote neuroprogenitor cell cycle exit and differentiation into either neurons, oligodendroglia or astrocytes. ATF5 is also highly expressed in a number of tumor types, including neural tumors such as neuroblastomas, medulloblastomas and glioblastomas. Examination of the role of ATF5 in glioblastoma cells indicates that interference with its expression or activity causes them to undergo apoptotic death. In contrast, normal astrocytes and neurons do not appear to require ATF5 for survival, indicating that it may be a selective target for treatment of glioblastomas and other neural neoplasias. Further studies are needed to identify the transcriptional targets of ATF5 and the mechanisms by which its expression is regulated in neuroprogenitors and tumors. [source]

Sustained phosphorylation of tyrosine hydroxylase at serine 40: a novel mechanism for maintenance of catecholamine synthesis

JOURNAL OF NEUROCHEMISTRY, Issue 2 2007
Larisa Bobrovskaya
Abstract Tyrosine hydroxylase (TH) is the rate-limiting enzyme in catecholamine synthesis. Its activity is known to be controlled acutely (minutes) by phosphorylation and chronically (days) by protein synthesis. Using bovine adrenal chromaffin cells we found that nicotine, acting via nicotinic receptors, sustained the phosphorylation of TH at Ser40 for up to 48 h. Nicotine also induced sustained activation of TH, which for the first 24 h was completely independent of TH protein synthesis, and the phosphorylation of TH at Ser31. Imipramine did not inhibit the acute phosphorylation of TH at Ser40 or TH activation induced by nicotine, but did inhibit the sustained responses to nicotine seen at 24 h. The protein kinase(s) responsible for TH phosphorylation at Ser40 switched from being protein kinase C (PKC) independent in the acute phase to PKC dependent in the sustained phase. Sustained phosphorylation and activation of TH were also observed with histamine and angiotensin II. Sustained phosphorylation of TH at Ser40 provides a novel mechanism for increasing TH activity and this leads to increased catecholamine synthesis. Sustained phosphorylation of TH may be a selective target for drugs or pathology in neurons that contain TH and synthesize dopamine, noradrenaline or adrenaline. [source]

T-helper 17 cells expand in multiple sclerosis and are inhibited by interferon-,,

ANNALS OF NEUROLOGY, Issue 5 2009
Luca Durelli MD
Objective T-helper 1 (Th1) and Th17 lymphocytes are involved in experimental autoimmune encephalomyelitis, the model of multiple sclerosis (MS). We characterized the Th1/Th17 cell populations in peripheral blood (PB), their interferon (IFN) receptor expression sensitivity to IFN-, in MS patients. Methods In 30 untreated patients with active MS (AMS) and 32 with inactive MS (IMS), and in 22 healthy subjects, we measured intracellular cytokine expression, interleukin-17,producing myelin basic protein,stimulated PB lymphocytes, surface IFN type I receptor chain1 (IFN-,R1) expression, IFN-,-dependent signal transducer and activator of transcription 1 (STAT1) phosphorylation, and apoptosis of anti-CD3 monoclonal antibody,stimulated PB lymphocytes. Results Th17 cell percentage increased around sevenfold in AMS compared with IMS or healthy subjects, but there was no change in Th1 cells. Th17 cells in AMS were myelin basic protein specific. The longitudinal follow-up of 18 MS patients shifting between AMS and IMS showed that the percentage of Th17 but not Th1 cells always increased in AMS. IFN-,R1 expression, IFN-,,induced STAT1 activation, and apoptosis were significantly greater in Th17 than Th1 cells. IFN-,R1 expression and IFN-,,dependent STAT1 activation progressively increased in vitro with a highly significant positive correlation only in developing Th17 but not in Th0 or Th1 cells. Interpretation Evidence that an expansion of peripheral Th17 cells, a Th subset that can infiltrate brain parenchyma and damage cells, is associated with disease activity in MS. The greater IFN-,R1 level expressed by Th17 compared with Th1 cells might make them a selective target for IFN-, therapy. Ann Neurol 2009;65:499,509 [source]