UMLS:C0019829 - FACTA Search

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Query: UMLS:C0019829 (Hodgkin's disease)
30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The spontaneous electrical activity of small strips of muscle from the sinus venosus region of the heart of Rana catesbeiana was investigated using the double sucrose gap technique. The voltage clamp was used to record the ionic currents underlying the pace-maker depolarization and the action potential.2. The records of spontaneous electrical activity are very similar to those obtained from the sinus venosus using micro-electrodes. Moreover, the pace-maker activity is almost completely insensitive to tetrodotoxin (TTX) at 2.0 x 10(-6) g/ml., which suggests that the pace-maker responses can be classified as primary, as opposed to follower pacing.3. In response to short rectangular depolarizing voltage clamp pulses, only one inward current is activated. This current is almost completely insensitive to TTX but can be blocked by manganese ions. It appears, therefore, to be equivalent to the slow inward (Ca(2+)/Na(+)) current, I(si), of other cardiac tissues. The threshold for I(si) is near to the maximum diastolic potential, indicating that it must be activated during the pace-maker depolarization.4. Interruption of the normal pace-maker depolarization by rapid activation of the voltage clamp circuit reveals the time-dependent decay of outward current. This current reverses between -75 and -90 mV and, therefore, is probably carried mainly by potassium ions.5. Outward current decay is not a simple exponential, and Hodgkin-Huxley analysis suggests that two distinct components of outward current may be present. One of these is activated in the potential range of the pace-maker depolarization and the other at more positive potentials. Both outward currents reach full, steady-state activation at about zero mV, i.e. within the ;plateau' range of the sinus action potential.6. These results are compared with other recently published voltage clamp data from the rabbit sino-atrial node.7. A hypothesis for the generation of pace-maker activity is presented which involves (i) decay of outward current and (ii) activation of the slow inward current, I(si).
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PMID:Membrane currents underlying activity in frog sinus venosus. 30 99

Reverse transcriptase (RT) transcribes viral RNA into DNA to be integrated into the host genome. To study epidemiological aspects of human leukemias and lymphomas which are known to express retroviruses, clinical specimens in this report were assayed for divalent cation-dependent viral-specific RT. The assay was carried out with cells solubilized with a detergent to release RT enzyme. RT was purified with poly(U)-Sepharose which fixed all DNA polymerases and assayed with 4 synthetic homopolymers, oligonucleotide primed-templates, poly(rA)-oligo(dT)12-18 or poly(dA)-oligo(dT)12-18 with Mg2+, poly(rC)-oligo(dG)12-18 or poly(rCm)-oligo(dG)12-18 with Mn2+ as divalent cation and [methyl-3H]thymidine 5'-triphosphate or deoxy[8-3H]guanosine 5-triphosphate respectively. Radioactivity incorporation of the precipitate allows quantitation of RT activity. One Hodgkin's disease, one out of 2 B lymphomas, one out of 2 T lymphomas, eight out of 12 leukemias were found to be positive for RT activity as well as acquired immunodeficiency syndrome (AIDS) patients, known to express RT. The obtained RT activity in hematological malignancies was found to be comparable to positive controls such as RT enzymes purified from avian myeloblastosis and Moloney murine leukemia viruses.
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PMID:Presence of reverse transcriptase in human leukemias and lymphomas. 170 70

A quantitative description of the time-dependent and voltage-sensitive outward currents in heart has been hampered by the complications inherent to the multicellular preparations previously used. We have used the whole-cell patch-clamp technique to record the delayed outward K+ current, IK, in single cells dissociated from frog atrium. Na+ currents were blocked with tetrodotoxin and Ca2+ currents with Mn2+ or Cd2+. After depolarizations from -50 mV to potentials positive to -30 mV, a time-dependent outward current was observed. This current has been characterized according to its steady state activation, kinetics, and ion transfer function. The current is well described as a single Hodgkin-Huxley conductance. The deactivation of the current is a single exponential. Activation of the current is sigmoid and is fitted well by raising the activation variable to the second power. The reversal potential of IK is near EK and shifts by 57 mV/10-fold change in [K+]o. This suggests that the current is carried selectively by K ions. The threshold for activation is near -30 mV. IK is maximally activated positive to +20 mV and shows no inactivation. The fully activated current-voltage relationship is linear between -110 and +50 mV. Neither Ba2+ (250 microM) nor Cd2+ (100 microM) affects IK.
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PMID:A time-dependent and voltage-sensitive K+ current in single cells from frog atrium. 243 57

1. Monovalent cation selectivity and divalent cation sensitivity of the tetrodotoxin (TTX)-resistant Na+ current in dissociated adult rat nodose ganglion neurones were investigated using the whole-cell patch-clamp technique. 2. The TTX-resistant Na+ current was isolated using ion substitution and pharmacological agents. Under these conditions, the current reversal potential shifted 52 mV per tenfold change in external [Na+]. 3. Inorganic and organic monovalent cation permeability ratios (Px/PNa) were determined from changes in reversal potential and the Goldman-Hodgkin-Katz equation. The Px/PNa values determined by the former method were HONH3+, 1.38; Li+, 1.00; H2NNH3+, 0.66; NH4+, 0.28; CH3NH3+, less than 0.13; K+, less than 0.13; Rb+, less than 0.12; Cs+, less than 0.10; (CH3)4N+, less than 0.10. The values determined by either method agreed within 10%. 4. The effects of Cd2+, Co2+, Mn2+ and Ni2+ on the TTX-resistant Na+ current were analysed from peak-conductance values. These ions shifted the activation of the current to more positive potentials and decreased the maximal conductance. At 3 mM concentrations, Cd2+, Ni2+, Co2+ and Mn2+ decreased the maximal conductance 64.6, 50.7, 25.0 and 20.3%, respectively. 5. The results indicate that: (a) the monovalent cation selectivity of the TTX-resistant Na+ current is similar to that of the TTX-sensitive Na+ current in other tissues; and (b) the TTX-resistant Na+ current is less sensitive to divalent cations than the Ca2+ current in these neurones. These observations suggest that the structure determining the monovalent cation permeability of the TTX-resistant Na+ current is similar to that of the TTX-sensitive Na+ current in other tissues, and that the channels carrying the TTX-resistant Na+ current are distinct from those responsible for the Ca2+ current.
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PMID:Tetrodotoxin-resistant sodium current of rat nodose neurones: monovalent cation selectivity and divalent cation block. 244 74

1. Using the method of Hodgkin, McNaughton & Nunn (1985) for rapidly changing the extracellular medium, we analysed the effect of divalent cations on the photocurrent of isolated retinal rods of the tiger salamander. 2. When the extracellular NaCl was replaced by equiosmolar amounts of BaCl2, SrCl2, CaCl2, MgCl2 and MnCl2 the efficacy in carrying the photocurrent at early times was Ba2+ greater than Sr2+ greater than Ca2+ greater than Mg2+ greater than Mn2+. At early times Ba2+ could carry a photocurrent similar to or larger than that carried by Na+. 3. The photocurrent carried by Ba2+ increased by about 50% when [Ca2+]o was reduced from 1 to 0.1 mM. In the presence of 0.1 mM-Ca2+ in the extracellular medium the photocurrent carried by Ba2+ saturated when [Ba2+]o was close to 50 mM and was half-activated at 15 mM [Ba2+]o. 4. The photocurrent which can be carried by Sr2+ is not larger than that carried by Ba2+ and does not saturate for [Sr2+]o up to 70 mM. 5. When extracellular Na+ is replaced by the impermeant organic ion choline it is possible to observe a transient photocurrent which is carried by Ca2+. This current has a maximal value of about 11 pA and has a half-activation constant of about 50 microM. 6. Movements of Mg2+ across the light-sensitive channel can be seen only when extracellular Ca2+ is reduced below 10 microM. Under these conditions the maximal photocurrent which can be carried by Mg2+ at early times is about 8 pA and has a half-activation of about 2 mM. Under normal conditions Mn2+ is hardly permeable through the light-sensitive channel. 7. It is concluded that the selectivity of the light-sensitive channel in the low ionic concentration range is Ca2+ greater than Sr2+ greater than Ba2+ greater than Mg2+ greater than Na+.
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PMID:The ionic selectivity of the light-sensitive current in isolated rods of the tiger salamander. 246 83

1. By using the method of Hodgkin, McNaughton & Nunn (1985) for rapidly changing the extracellular medium, we analysed the effect of the organic compound IBMX (3-isobutyl-1-methylxanthine) on the movement of divalent cations through the light-sensitive channels of isolated retinal rods of the tiger salamander. 2. When the rod is treated with 0.5 mM-IBMX it is possible to observe photocurrents larger than 50 pA carried by Ba2+, Sr2+, Ca2+, Mg2+ and Mn2+. Under these conditions Ca2+, Mg2+ and Mn2+ carry photocurrents of similar amplitude, while Ba2+ and Sr2+ usually carry larger photocurrents. 3. The movement of Mn2+ through the light-sensitive channel, which is hardly detected under normal conditions, can also be observed after treating the rod for a few seconds with a solution containing 35 mM[Na+]o and 10(-7) M[Ca2+]o. Under these conditions the photocurrent carried by Mn2+ is fully saturated in the presence of 1 mM-extracellular Mn2+. 4. When the rod is pre-treated with an extracellular solution containing 0.5 mM-IBMX the maximal photocurrent which can be carried by 10 mM [Ca2+]o increases from about 10 pA to approximately 200 pA. In these conditions the half-activation of the Ca2+ current is between 1 and 10 mM, that is 20-50 times higher than in normal conditions (Menini, Rispoli & Torre, 1988). 5. When the rod is pre-treated with an extracellular solution containing 0.5 mM-IBMX the half-activation of the photocurrent which can be carried by Mg2+, Ba2+ and Sr2+ is equivalent to or greater than 10 mM. In the absence of pre-treatment with IBMX the half-activation of the photocurrent carried by Mg2+, Ba2+ and Sr2+ is less than 5 mM. 6. We conclude that the light-sensitive channel can exist in at least two distinct open states. The selectivity of the channel in the first open state is as described in a previous paper (Menini et al. 1988). Mn2+, which is hardly permeable through the light-sensitive channel in the first open state, can move through the light-sensitive channel in the second open state. Ca2+, Mg2+, Ba2+ and Sr2+ permeate more freely through the light-sensitive channel in the second open state, probably because the electrostatic interactions between these ions and the channel are less strong.
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PMID:The modulation of the ionic selectivity of the light-sensitive current in isolated rods of the tiger salamander. 247 69

The active and passive electrical properties of the after-hyperpolarizing (AH) cell of the guinea-pig myenteric plexus were analysed using a single-electrode voltage or current clamp. Action potentials were compared under normal conditions, in the presence of tetrodotoxin (TTX) and in the presence of both TTX and tetraethylammonium chloride (TEA). Calcium action potentials were studied by examining their calcium dependence, the actions of manganese and the effect of substituting barium for calcium. The maximum rate of rise of the action potential did not increase in calcium concentrations above 10 mM. The half-saturation concentration was 2 mM-calcium. AH cells exhibited five predominant currents consisting of an inward sodium current, an inward calcium current and three outward currents. There was a transient outward current which was inactivated at holding potentials more positive than -65 mV and was suppressed by 4-aminopyridine and barium but not by external TEA. A second outward current observed in the presence of 10 mM-external TEA had properties consistent with that of the delayed rectifier (Hodgkin & Huxley, 1952). A third outward current was the calcium-dependent slow after-hyperpolarizing current (Hirst, Johnson & van Helden, 1985). The voltage dependence, the action of calcium antagonists, the effect of barium substitution and the temporal characteristics of calcium currents were studied. The peak calcium current density was in excess of 100 microA/cm2 in 2.5 mM-calcium solution at 35 degrees C for depolarizations to -10 mV. Calcium currents showed at least two phases of inactivation. Both calcium and barium currents showed early inactivation with decay occurring over the first 10-40 ms. The calcium-activated current precluded direct measurement of slow inactivation of the calcium current. Barium currents studied over the first 100-150 ms had a very slow inactivating component.
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PMID:The calcium current in a myenteric neurone of the guinea-pig ileum. 258 Sep 78

Ca2+ inward currents evoked by membrane depolarization have been studied by the intracellular dialysis technique in the somatic membrane of isolated dorsal root ganglion neurones of new-born rats. In about 20% of the investigated cells a hump has been detected on the descending branch of the current-voltage curve, indicating the presence of two populations of Ca2+ channels differing in their potential-dependent characteristics. An initial less regular component of the Ca2+ current was activated at membrane potentials from -75 to -70 mV. Its amplitude reached 0.2-0.9 nA at 14.6 mM-extracellular Ca2+. The activation kinetics of this component could be approximated by the Hodgkin-Huxley equation using the square of the m variable. tau m varied in the range from 8 to 1 ms at potentials between -60 and -25 mV ('fast' Ca2+ current). The second component of the Ca2+ current was activated at membrane depolarizations to between -55 and -50 mV. It could be recorded in all cells investigated and reached a maximum value of 1-7 nA at the same extracellular Ca2+ concentration. This component decreased rapidly during cell dialysis with saline solutions. The decrease could be slowed down by cooling and accelerated by warming the extracellular solution. Intracellular introduction of 3',5'-cAMP together with ATP and Mg2+ not only prevented the decrease but often restored the maximal current amplitude to its initial level. The activation kinetics of this component could also be approximated by a square function, tau m being in the range 16-2.5 ms at membrane potentials between -20 and +3 mV ('slow' Ca2+ current). The fast Ca2+ current inactivated exponentially at sustained depolarizations in a potential-dependent manner, tau h varying from 76 to 35 ms at potentials between -50 and -30 mV. The inactivation of the slow Ca2+ current studied in double-pulse experiments was current-dependent and developed very slowly (time constant of several hundreds of milliseconds). It slowed down even more at low temperature or after substitution of Ba2+ for Ca2+ in the extracellular solution. Both currents could also be carried by Ba2+ and Sr2+, although the ion-selecting properties of the two types of channels showed quantitative differences. Specific blockers of Ca2+ channels (Co2+, Mn2+, Cd2+, Ni2+ or verapamil) exerted similar effects on them. The existence of metabolically dependent and metabolically independent Ca2+ channels in the neuronal membrane and their possible functional role are discussed.
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PMID:Two types of calcium channels in the somatic membrane of new-born rat dorsal root ganglion neurones. 258 15

Lymph node and spleen tissues involved in malignant lymphomas were analysed for iron, manganese, copper, zinc and magnesium by atomic absorption spectrophotometry. The levels of iron are found to be significantly lower in the case of Hodgkin's lymphoma compared with non-Hodgkin's lymphoma and normal lymph nodes. However, they are elevated in Hodgkin's lymphoma when compared with the normal value for spleen tissues. Magnesium is significantly higher in lymph nodes of non-Hodgkin's lymphoma compared with Hodgkin's lymphoma and normal values, but is not altered significantly in spleen tissues. The distribution of the other elements examined is not altered significantly in malignant lymphomas. The importance of the in situ levels of these elements to NMR imaging is discussed.
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PMID:Iron, zinc, copper, manganese and magnesium in malignant lymphomas. 400 19

Properties of Ca2+ transport activated by depolarization of the membrane potential were investigated in the GH4C1 strain of rat pituitary cells. Membrane potential was depolarized by increasing external K+ concentration and was determined by [3H]tetraphenylphosphonium+ distribution. Depolarization by 50 mM [K+]o increased the initial rate of 45Ca2+ uptake 5-fold and the steady state 45Ca2+ content 8-fold. Stimulated 45Ca2+ uptake was not inhibited by tetrodotoxin (2 X 10(-6) M), and was insensitive to external Na+ concentration. Stimulated 45Ca2+ uptake increased with increasing external Ca2+ concentration (for [Ca2+]o less than 10 mM) and could be described by a Langmuir type expression (KCa = 4.3 mM). Initial rates of 45Ca2+ uptake increased almost linearly between -51 and -30 mV, from 2 to 12 nmol/min/mg of protein, and a maximum of 14 nmol/min/mg of protein was reached at -12 mV beyond which 45Ca2+ influx decreased, and was 11 nmol/min/mg of protein at 0 mV. Ca2+ permeability, PCa, calculated from the Goldman-Hodgkin-Katz constant field expression increased almost linearly for a wide range of membrane potential (-51 to -20 mV) and began to level off at -6 mV. Activated 45Ca2+ uptake was completely inhibited by La3+, Co2+, Mn2+, Mg2+, nifedipine, and verapamil; K1/2 values for inhibition were 1.7 X 10(-7) M, 0.1 mM, 0.1 mM, 2 mM, 1.7 X 10(-8) M, and 2 X 10(-5) M, respectively, at 0.5 mM [Ca2+]o. Ba2+ could substitute for Ca2+ in the uptake mechanism. The increase in activated 45Ca2+ uptake was transient and was turned off with time. We conclude that the initial rate of K+-stimulated 45Ca2+ uptake measured under the experimental conditions described represents uptake via voltage-dependent Ca2+ channels. Knowledge of the properties of this channel in GH4C1 cells will be essential in elucidating its role in the Ca2+-dependent actions of thyrotropin-releasing hormone.
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PMID:Voltage-dependent calcium channels in pituitary cells in culture. I. Characterization by 45Ca2+ fluxes. 632 9

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