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1.
Colonic myocytes have spontaneous, localized, Ins (1,4,5) trisphosphate (IP3) receptor-dependent Ca2+ transients that couple to the activation of Ca2+-dependent K+ channels and spontaneous transient outward currents (STOCs). We previously reported that the coupling strength between spontaneous Ca2+ transients and large conductance Ca2+ activated K+ (BK) channels is regulated by Ca2+ influx through nonselective cation channels and activation of protein kinase C (PKC). Here, we used confocal microscopy and the patch-clamp technique to further investigate the coupling between localized Ca2+ transients and STOCs in colonic myocytes from animals lacking the regulatory beta1-subunit of BK channels. Myocytes from beta1-knockout (beta1-/-) animals loaded with fluo 4 showed typical localized Ca2+ transients, but the STOCs coupled to these events were of abnormally low amplitude. Reduction in external Ca2+ or application of inhibitors of nonselective cation channels (SKF-96365) caused no significant change in the amplitude or frequency of STOCs. Likewise, an inhibitor of PKC, GF 109203X, had no significant effect on STOCs. Single-channel recording from BK channels showed that application of an activator (PMA) and an inhibitor (GF 109203X) of PKC did not affect BK channel openings in myocytes of beta1-/- mice. These data show that PKC-dependent regulation of coupling strength between Ca2+ transients and STOCs in colonic myocytes depends upon the interaction between alpha- and beta1-subunits.  相似文献   
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An antibody directed against Kit protein was used to investigate the distribution of interstitial cells of Cajal (ICC) within the murine colon. The ICC density was greatest in the proximal colon and decreased along its length. The distribution of the different classes of ICC in the aganglionic colons of lethal spotted (ls/ls) mice was found to be similar in age-matched wild-type controls. There were marked differences in the electrical activities of the colons from ls/ls mutants compared with wild-type controls. In ls/ls aganglionic colons, the circular muscle was electrically quiescent compared with the spontaneous spiking electrical activity of wild-type tissues. In ls/ls aganglionic colons, postjunctional neural responses were greatly affected. Inhibitory junction potentials were absent or excitatory junction potentials inhibited by atropine were observed. In conclusion, the distribution of ICC in the ganglionic and aganglionic regions of the colons from ls/ls mutants appeared similar to that of wild-type controls. The electrical activity and neural responses of the circular layer are significantly different in aganglionic segments of ls/ls mutants.  相似文献   
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Localized Ca2+ transients inisolated murine colonic myocytes depend on Ca2+ releasefrom inositol 1,4,5-trisphosphate (IP3) receptors.Localized Ca2+ transients couple to spontaneous transientoutward currents (STOCs) and mediate hyperpolarization responses inthese cells. We used confocal microscopy and whole cell patch-clamprecording to investigate how muscarinic stimulation, which causesformation of IP3, can suppress Ca2+ transientsand STOCs that might override the excitatory nature of cholinergicresponses. ACh (10 µM) reduced localized Ca2+ transientsand STOCs, and these effects were associated with a rise in basalcytosolic Ca2+. These effects of ACh were mimicked bygeneralized rises in basal Ca2+ caused by ionomycin(250-500 nM) or elevated external Ca2+ (6 mM).Atropine (10 µM) abolished the effects of ACh. Pretreatment of cellswith nicardipine (1 µM), or Cd2+ (200 µM) had no effecton responses to ACh. An inhibitor of phospholipase C, U-73122, blockedCa2+ transients and STOCs but did not affect the increasein basal Ca2+ after ACh stimulation. Xestospongin C (Xe-C;5 µM), a membrane-permeable antagonist of IP3 receptors,blocked spontaneous Ca2+ transients but did not prevent theincrease of basal Ca2+ in response to ACh. Gd3+(10 µM), a nonselective cation channel inhibitor, prevented the increase in basal Ca2+ after ACh and increased thefrequency and amplitude of Ca2+ transients and waves.Another inhibitor of receptor-mediated Ca2+ influxchannels, SKF-96365, also prevented the rise in basal Ca2+after ACh and increased Ca2+ transients and development ofCa2+ waves. FK-506, an inhibitor ofFKBP12/IP3 receptor interactions, had no effect onthe rise in basal Ca2+ but blocked the inhibitory effectsof increased basal Ca2+ and ACh on Ca2+transients. These results suggest that the rise in basalCa2+ that accompanies muscarinic stimulation of colonicmuscles inhibits localized Ca2+ transients that couldcouple to activation of Ca2+-activated K+channels and reduce the excitatory effects of ACh.

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Neuronal histone acetylation has been linked to memory consolidation, and targeting histone acetylation has emerged as a promising therapeutic strategy for neuropsychiatric diseases. However, the role of histone‐modifying enzymes in the adult brain is still far from being understood. Here we use RNA sequencing to screen the levels of all known histone acetyltransferases (HATs) in the hippocampal CA1 region and find that K‐acetyltransferase 2a (Kat2a)—a HAT that has not been studied for its role in memory function so far—shows highest expression. Mice that lack Kat2a show impaired hippocampal synaptic plasticity and long‐term memory consolidation. We furthermore show that Kat2a regulates a highly interconnected hippocampal gene expression network linked to neuroactive receptor signaling via a mechanism that involves nuclear factor kappa‐light‐chain‐enhancer of activated B cells (NF‐κB). In conclusion, our data establish Kat2a as a novel and essential regulator of hippocampal memory consolidation.  相似文献   
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The Hedgehog (Hh) signaling pathway differentially utilizes the primary cilium in mammals and fruit flies. Recent work, including a study in BMC Biology, demonstrates that Hh signals through the cilium in zebrafish, clarifying the evolution of Hh signal transduction.  相似文献   
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The ultrastructure of the mouse esophagus at the level of the diaphragm was studied from embryo day 17 to adult. The transdifferentiation of smooth muscle into skeletal muscle was categorized into seven ultrastructural stages: during phase I normal smooth muscle myogenesis was observed. In phase II subpopulations of cells changed into aggregates of myoblast-like cells. At the center of these cell aggregates, phase III cells appeared that contained condensed myofilaments. Dense bodies and dense bands appeared enlarged by the accumulation of thin filaments. In phase IV the condensed myofilaments organized into sarcomere pretemplate structures. The dense bodies and dense bands formed rudimentary Z-lines. In phase V the sarcomere templates appeared as more defined structures and began to align. An elaborate perinuclear region appeared. During phase VI, skeletal muscle sarcomeres were apparent and myofilaments were arranged in a typical hexagonal array. Phase VII skeletal muscle fibers were unique with sarcomeric bifurcations and anastomoses between adjacent myofibrils. Non-contractile organelles were less organized in these cells than in skeletal muscles such as rectus and vastus lateralis muscles. During the transdifferentiation process, other cell types remained unchanged, except the number of interstitial cells of Cajal became reduced. Immunocytochemical studies with antibodies against smooth and skeletal muscle myosin were also performed during the process of transdifferentiation. An osmium tetroxide/potassium ferricyanide en bloc mordant enabled the use of ultrathin Unicryl sections for immunocytochemistry. Cells exhibited smooth muscle myosin-like immunoreactivity from the smooth muscle stage through the condensed myofilament stage. Cells were immunopositive for skeletal muscle myosin before the formation of sarcomere templates, during the condensed stage, and after development of mature skeletal muscle cells. We also observed a hybrid muscle cell with properties of both smooth and skeletal muscle cells.  相似文献   
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