Masked excitatory action of noradrenaline on rat islet β-cells via activation of phospholipase C

The effect of noradrenaline (NE) on rat islet -cells was examined. NE reduced insulin secretion from rat islets exposed to extracellular solutions containing glucose at 5.5 or 16.6 mM. In islets treated with pertussis toxin (PTX), however, NE increased insulin secretion. The NE-induced augmentation of insulin secretion was inhibited by prazosin. In intact islets, NE increased phospholipase C (PLC) activity, an effect that was prevented by treatment of islets with U-73122. NE elevated intracellular [Ca²⁺] ([Ca²⁺]_i) in isolated -cells independently of PTX. Although this NE effect was inhibited by prazosin, phenylephrine did not mimic it. The [Ca²⁺]_i response to NE was also prevented by the treatment of cells with U-73122. NE produced depolarization of -cells followed by nifedipine-sensitive action potentials. NE reduced the whole-cell membrane currents through ATP-sensitive K⁺ channels (K_ATP), responsible for the depolarization. This NE effect was prevented by treatment of -cells with U-73122 or BAPTA/AM. Although at least some of our results imply the presence of ₁-adrenoceptors, -cells were not stained by a polyclonal IgG antibody recognizing all adrenergic ₁-receptor subtypes so far identified. These results suggest that an interaction of NE with an unknown type of receptor activates rat islet -cells via a PLC-dependent signal pathway. This effect is, however, masked by the inhibitory action via a PTX-sensitive pathway also activated by NE.     

Melanosomes and MHC class II antigen-processing compartments

Melanosomes are specialized intracellular compartments within melanocytes and retinal pigment epithelial cells that function in the synthesis, storage, and secretion of melanins, which are the major pigments made by mammals. The mechanisms that regulate the formation of melanosomes, and the pathways by which constituent proteins are targeted to them, are related to those involved in the biogenesis of major histocompatibility complex (MHC) class II antigen-processing compartments. Consequently, diseases that affect pigmentation may also affect antigen presentation to T cells. Moreover, many of the tissue-specific proteins that localize to melanosomes and participate in melanin formation double as tumor-associated antigens that are targets for T cells in patients with melanoma. Our studies on melanosome biogenesis are providing new ways of thinking about antigen-processing compartments and the mechanisms regulating presentation of tumor-associated antigens.     

Anoxic disturbance of the isolated respiratory network of neonatal rats

Tissue oxygen (PO₂), K⁺ (aK_e), pH (pH_e) and Ca²⁺ ([Ca²⁺]_e) were measured in the region of the ventral respiratory group (VRG) in the in vitro brainstem-spinal cord preparation of neonatal rats. During tissue anoxia, elicited by superfusion of N₂-gassed solutions, an initial increase in the frequency of respiratory activity, lasting between 2 and 12 min, turned into a frequency depression. During anoxia periods of up to 60 min, respiratory activity persisted in solutions containing CO₂/bicarbonate, whereas a complete blockade was observed after 15–25 min in N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid- (Hepes)-buffered salines. After such anoxic apnea, respiratory rhythmicity could be reactivated by superfusion of hypoxic, CO₂/bicarbonate-buffered solutions. In both types of hypoxic solutions, aK_e increased by maximally 1.5mM, whereas an initial increase of pH_e by up to 0.05 pH units turned, after 2–4 min, into an acidification which could exceed 0.5 pH units. In contrast, [Ca²⁺]_e remained unaffected by anoxia. Addition of 2–5 mM cyanide (CN^-) to oxygenated Hepes-buffered saline evoked an increase in PO₂ in the VRG from 100 to more than 300 mmHg. The effects of CN^- on respiratory activity, aK_e and pH_e were almost identical to those during anoxia. In oxygenated, CO₂/bicarbonatefree solutions of different pH, however, an increase in pH_e in the VRG led to a decrease in respiratory frequency, whereas a fall of pH_e produced a frequency acceleration. A rise of aK_e in the VRG by more than 2 mM as induced by superfusion of a 7 mM K⁺ solution led to a sustained increase of respiratory frequency. The results indicate that blockade of aerobic metabolism does not severely perturb K⁺ and Ca²⁺ homeostasis and that the biphasic response to anoxia is not directly related to the observed changes in PO₂, aK_e, pH_e, or [Ca²⁺]_e. In the respiratory network of neonatal mammals, CO₂ might provide a stimulus for long-term maintenance of respiratory activity under oxygen depletion.     

The flickery block of ATP-dependent potassium channels of skeletal muscle by internal 4-aminopyridine

We have examined the effects of 4-aminopyridine (4-AP) on single ATP-dependent potassium channels in patches excised from frog skeletal muscle. 4-AP applied to the internal face of the membrane caused a flickery block. We could not detect any flickery block when 10 mM 4-AP was applied to the external surface of the membrane. The reduction in mean unitary current by internal 4-AP was consistent with 11 binding with a K _d of 3.3 mM at 0 mV. The block was voltage-dependent, increasing with depolarization with an effective valency of 0.57. Rate constants for blocking and unblocking by 4-AP were obtained by fitting functions to the distribution of current amplitudes. Both rate constants were voltage-dependent. At 0 mV they were 17 mM^–1 ms^–1 and 61 ms^–1. Simulation of the block using these rate constants produced a flickery block very similar to that observed experimentally.     

Dissociation of acetylcholine- and cyclic GMP-induced currents inXenopu oocytes

InXenopus follicular oocytes, activation of muscarinic receptors evokes a slow potassium current (H-response); a similar current is evoked by intracellular injection of cyclic guanosine 3,5-monophosphate, cGMP (Dascal et al. 1984). We have tested the hypothesis that cGMP may be the second messenger that mediates the opening of K channel by acetylcholine (ACh). ACh elevated the intracellular level of cGMP with a time course similar to that of the development of the muscarinic H-response; maximal increase in cGMP concentration above the control was about 0.2 pmole/oocyte. The amount of injected cGMP that produced a detectable K current (threshold dose) varied between 0.5 and 3 pmole/oocyte. At low doses of cGMP, the slope of log dose-log response curve was about 2.5, suggesting involvement of a biochemical process with a positive cooperativity of at least 3. Higher doses of cGMP evoked, in addition to the outward current, an irregular, rapidly developing, long-lasting inward current, that never reached amplitudes comparable to those of ACh-evoked Cl currents. The K current elicited by cGMP was insensitive to elevation or depletion of external Ca. It was potentiated by isobutylmethylxanthine (IBMX). ACh strongly inhibited the cGMP-evoked K current when applied at the plateau of the latter. 4-Phorbol 12,13-dibutyrate (PDBu) (1 M) rapidly and completely inhibited the cGMP response. It is concluded, that most of the results presented in this report contradict the hyothesis that cGMP is the intracellular mediator of ACh-induced changes in membrane conductance in the oocytes.Abbreviations ACh acetylcholine - cAMP cyclic adenosine 3,5-monophosphate - cGMP cyclic guanosine 3,5-monophosphate - EGTA ethylenediaminetetraacetic acid - Hepes N-2-hydroxyethyl-piperazinc-N-2-hydroxypropanesulphonic acid - IBMX 3-isobutyl-l-methylxanthine - IP₃ inositol 1,4,5-trisphosphate - PDBu 4-phorbol 12,13-dibutyrate     

Arborization of axons in oculomotor nucleus identified by vestibular stimulation and intra-axonal injection of horseradish peroxidase

Summary Axons in the medial rectus (MR) subdivisions of the oculomotor nucleus were identified by horizontal rotation and by electrical stimulation of the vestibular nerves and abducens nuclei. Three types of axons (vestibular type I and II and abducens interneurons) were then injected intra-axonally with horseradish peroxidase (HRP). Each injected axon was reconstructed under the microscope in the frontal and horizontal planes and terminal arborization and boutons contacting with MR motoneurons were studied. The MR motoneurons were identified by retrograde uptake of HRP, HRP being injected in the MR muscle prior to the intra-axonal experiment.The main types of horizontal canal-related axons were as follows: (1) ATD-unilateral termination axons: Most type I axons were of this type. Axons ascended in ascending tract of Deiters (ATD) to the oculomotor nucleus and terminated in ipsilateral MR area. (2) ATD-bilateral termination axons: Very few secondary canal responsive axons were in this group. Axons ascended in ATD to the oculomotor nucleus and terminated in MR motoneuron areas bilaterally and in the Edinger-Westphal nucleus. (3) MLF-bilateral termination axons: Most type II neurons were in this group. Axons went up in the contralateral MLF and into both oculomotor nuclei. Their branches distributed to several motoneuron areas but only infrequently to the MR area; and to the Edinger-Westphal nucleus. (4) AB interneuron axons: Axons ascended in the MLF contralateral to cells of origin and terminated in the contralateral MR motoneuron area.Supported by USPHS Grant No. 06658     

Endogene Natriuretische und Ouabain-ähnliche Faktoren

Summary The existence of an endogenous natriuretic hormone and ouabain-like factors (OLF) has been postulated for many years. This postulate was based on our original observation that a small M.W. fraction in the serum after acute expansion of the extracellular fluid volume (ECFV) not only exhibited natriuretic activity but also inhibited the Na-K-ATPase enzyme in vitro similar to ouabain. Since then, numerous studies confirmed the presence of OLFs in serum, urine, cerebrospinal fluid, and various organs including the heart and hypothalamus. Some of these OLFs are well-known endogenous compounds, such as free unsaturated fatty acids, which inhibit in vitro transmembranous sodium transport, Na-K-ATPase and³H-ouabain binding to its membrane receptor or crossreact with digoxin antibodies. Chemically yet undefined OLFs of potentially hypothalamic origin were detected in various models of experimental and clinical hypertension and are suggested to play a pathophysiological role especially in salt- and volume-dependent forms of hypertension. Our results show that OLFs isolated from the urine of salt-loaded healthy subjects strongly enhance basal and vasopressin-stimulated release of calcium in vascular smooth muscle cells and platelets similar to the effects we had observed with endothelin. This urine fraction also exhibits natriuretic activity which increases in parallel with sodium intake. Further chromatographic separation and amino acid analysis confirmed the peptidic nature (M.W.<1000) of the natriuretic factor(s). However, the two biological activities, namely natriuretic and ouabain-like activities, reside in distinct and chemically different compounds. In face of the previous discovery of the atrial natriuretic peptides (ANP) it is of special interest that very recent observations strongly suggest a natriuretic factor of non-cardiac origin to play an important role in the natriuresis that follows ECFV expansion. In addition, numerous experimental data point to an interaction between the ANP and OLF systems. They should stimulate once again the final identification of these yet unknown endogenous natriuretic and ouabain-like factors.

Die in dieser übersicht zitierten eigenen Untersuchungen wurden von der Deutschen Forschungsgemeinschaft, Bonn, dem Ministerium für Wissenschaft und Forschung des Landes Nordrhein-Westfalen (FA-2914, FA-8871, IVA6-402-046-87), Düsseldorf, und der Konrad-Adenauer-Stiftung, Bonn, unterstützt     

An ER export signal accelerates the surface expression of shal potassium channels in pyloric neurons of the lobster stomatogastric ganglion

The shal gene encoding the transient potassium current, I _A, plays important roles in shaping the firing properties of neurons in the pyloric network in the stomatogastric ganglion (STG) of the spiny lobster, Panulirus interruptus. However, when we overexpressed the shal protein in pyloric dilator (PD) neurons, the effect of increased I _A was compensated by a parallel upregulation of the hyperpolarization activated inward current (I _h). In an attempt to temporally separate the overexpression of shal from the compensatory up-regulation of I _h channels, we inserted an endoplasmic reticulum (ER) export signal sequence, FCYENE, into the shal gene. This signal sequence accelerated the surface expression of shal protein in Xenopus oocytes and PD neurons. However, the accelerated expression of shal still did not alter the firing properties of the injected neuron, suggesting that the compensatory upregulation of I _h occurs simultaneously with the upregulation of I _A.     

Hyperpolarization of hypothalamic parvocellular neurons by 17 β-estradiol and their identification through intracellular staining with procion yellow

Summary Intracellular recordings and injections of procion yellow (PY) were made in parvocellular neurons in hypothalamic slices of female guinea pigs. Eighty-five neurons, with an average resting membrane potential of -35 mV, were recorded in the arcuate (ARC) ventromedial (VM), and in the cellpoor zones between the ARC and VM. Eleven of the ARC neurons and four neurons from the cell-poor zone could be driven antidromically by median eminence (ME) stimulation, nine other neurons from the three areas could be driven orthodromically by stria terminalis (ST) stimulation.Twenty-eight parvocellular neurons were tested with 17 -estradiol (E₂), which was applied in the bathing medium as the free steroid. Eleven neurons (nine ARC and two cell-poor-zone neurons) were hyperpolarized 2 to 24 mV by 10^–10 M E₂ concentrations. 10^–8 M estrone concentration was without effect on three of these cells. Through the intracellular injection of PY, the estrogen-sensitive neurons (N = 11) were identified as small fusiform cells with few dendrites. Spine-like appendages were found on only one of these cells. None of the larger pyramidal-like neurons of these areas responded to the application of E₂.Postdoctoral research fellow of the National Institute of Neurological and Communicative Disorders and Stroke     

The activation of protein kinase C prevents PGE2-induced inhibition of AVP-dependent cAMP accumulation in the rat outer medullary collecting tubule

Previous studies have demonstrated that prostaglandin E₂ (PGE₂) inhibits arginine vasopressin-(AVP)dependent adenosine 3,5-cyclic monophosphate (cAMP) accumulation in microdissected rat outer medullary collecting tubules (OMCD), by a mechanism unrelated to the inhibition of cAMP synthesis. The potential role of the activation of protein kinase C (PKC) to explain the negative regulation elicited by PGE₂ was investigated in this study. Single OMCD samples were pre-incubated (10 min, 30°C) in the presence or absence of either activators of PKC, phorbol 12-myristate 13-acetate (PMA), 1-oleoyl-2-acetyl-glycerol (OAG), dioctanoylglycerol (DOG) or an inhibitor of PKC, staurosporine (SSP). These compounds were present also with the agonists tested during the incubation period (4 min, 35°C). In contrast to PGE₂, activators of PKC did not decrease AVP-dependent cAMP accumulation (mean ±SEM): 1nM AVP=47.1±6.8 fmol · mm^–1· 4 min^–1; AVP + 0.3 M PGE₂=20.1±2.7, P<0.01 versus AVP; AVP + 10 nM PMA=42.0±4.7, NS versus AVP; AVP + 50 g/ml OAG=44.1±4.8. NS versus AVP, N= 5 experiments. However, 10 nM PMA prevented PGE₂-induced inhibition: AVP + PGE₂= 44.2±3.5% of the response to AVP and 90.3±3.2% without and with PMA respectively, N= 16. Similar results were obtained with either 50 g/ml OAG or 25 g/ ml DOG (AVP + PGE₂ + OAG=92.9±6.6% of the response to AVP, N= 8; AVP + PGE₂ + DOG=94.1 ±5.3%, N= 7). OAG, DOG, PMA or PMA + PGE₂ had no intrinsic agonist activity in the rat OMCD and the addition of an inactive phorbol ester did not prevent PGE₂-induced inhibition. SSP, 50 nM or 0.1 M, did not affect the inhibition due to PGE₂ but abolished the reversion by PMA of PGE₂-induced inhibition. A similar regulation was observed on forskolin-(FK)dependent cAMP accumulation: 5 M FK + 0.3 M PGE₂= 37.7±6.2% of the response to FK; FK + PGE₂ + 10 nM PMA=89.5±6.7%; FK + PGE₂ + PMA + 0.1 M SSP=43.1±7.9%, N= 4. The inhibition induced by an ₂-adrenergic agonist, clonidine 1 M, was not blocked by the activation of PKC. In fura-2-loaded OMCD samples, 10nM PMA decreased by 63.3±5.0% and by 57.2±7.1% the peak and plateau phases, respectively, of the increase in intracellular calcium concentration ([Ca²⁺]_i) obtained with PGE₂ when compared to control responses in the same tubules (n=12) and did not affect the increase in [Ca²⁺]_i induced by 0.1 mM carbachol. It is concluded that: (1) in the rat OMCD the activation of PKC by PMA or analogues of diacylglycerol did not reproduce PGE₂-induced inhibition of AVP- or FK-dependent cAMP accumulation, but prevented specifically this inhibitory action; and (2) this reversion might be the consequence of the effect of PKC activation which impaired the rises in [Ca²⁺]_i induced by PGE₂.