DOCSLIB.ORG

Schedule Clxi - Cabo Verde

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Schedule Clxi - Cabo Verde SCHEDULE CLXI - CABO VERDE Page 3 G/MA/TAR/RS/645 SCHEDULE CLXI - CABO VERDE This schedule is authentic only in the English language PART I - MOST-FAVOURED-NATION TARIFF SECTION I – AGRICULTURAL PRODUCTS SECTION I–A - TARIFFS Tariff item no. Ex Description of products Base rate of duty Bound rate of duty Implementation Special Initial Other duties Earlier legal Other (HS 2017) period safeguard negotiating and charges instruments terms and conditions Ad val. Other Ad val. Other From To right (%) (%) (%) 1 2 3.A 3.B 4.A 4.B 5.A 5.B 6 7 8 9 10 0805 Citrus fruit, fresh or dried. 0805.10.0000 - Oranges 20 0.5 CPV/08 0805.2 - Mandarins (including tangerines and satsumas); clementines, wilkings and similar citrus hybrids : 0805.21.0000 - - Mandarins (including tangerines and satsumas) 20 0.5 CPV/08 0805.22.0000 - - Clementines 20 0.5 CPV/08 0805.29.0000 - - Other 20 0.5 CPV/08 0805.40.0000 - Grapefruit, including pomelos 20 0.5 CPV/08 0805.50.0000 - Lemons (Citrus limon, Citrus limonum) and 20 0.5 CPV/08 limes (Citrus aurantifolia, Citrus latifolia) 0805.90.0000 - Other 20 0.5 CPV/08 1211 Plants and parts of plants (including seeds and fruits), of a kind used primarily in perfumery, in pharmacy or for insecticidal, fungicidal or similar purposes, fresh, chilled, frozen or dried, whether or not cut, crushed or powdered. 1211.20 - Ginseng roots 1211.20.1000 - - Chilled or frozen 25 0.5 CPV/08, WT/Let/1309 1211.20.9000 - - Other 5 0.5 CPV/08 1211.30.0000 - Coca leaf 5 0.5 CPV/08 1211.40.0000 - Poppy straw 5 0.5 CPV/08 1211.50.0000 - Ephedra 5 0.5 CPV/08 HS 2017 CHANGES - SCHEDULE CLXI - CABO VERDE - PART I - SECTION I-A Page 4 G/MA/TAR/RS/645 Tariff item no. Ex Description of products Base rate of duty Bound rate of duty Implementation Special Initial Other duties Earlier legal Other (HS 2017) period safeguard negotiating and charges instruments terms and conditions Ad val. Other Ad val. Other From To right (%) (%) (%) 1 2 3.A 3.B 4.A 4.B 5.A 5.B 6 7 8 9 10 1211.90 - Other 1211.90.1 - - Chilled or frozen 1211.90.1100 - - - Edible parts of plants 25 0.5 CPV/08, WT/Let/1309 1211.90.1900 - - - Other 5 0.5 CPV/08 1211.90.9000 - - Other 5 0.5 CPV/08 1302 Vegetable saps and extracts; pectic substances, pectinates and pectates; agar-agar and other mucilages and thickeners, whether or not modified, derived from vegetable products. 1302.1 - Vegetable saps and extracts : 1302.11.0000 - - Opium 5 0.5 CPV/08 1302.12.0000 - - Of liquorice 5 0.5 CPV/08 1302.13.0000 - - Of hops 5 0.5 CPV/08 1302.14.0000 - - Of ephedra 5 0.5 CPV/08 1302.19.0000 - - Other 5 0.5 CPV/08 1302.20.0000 - Pectic substances, pectinates and pectates 5 0.5 CPV/08 1302.3 - Mucilages and thickeners, whether or not modified, derived from vegetable products : 1302.31.0000 - - Agar-agar 5 0.5 CPV/08 1302.32.0000 - - Mucilages and thickeners, whether or not 50.5 CPV/08 modified, derived from locust beans, locust bean seeds or guar seeds 1302.39.0000 - - Other 5 0.5 CPV/08 1404 Vegetable products not elsewhere specified or included. 1404.20.0000 - Cotton linters 5 0.5 CPV/08 1404.90.0000 - Other 5 0.5 CPV/08 2008 Fruit, nuts and other edible parts of plants, otherwise prepared or preserved, whether or not containing added sugar or other sweetening matter or spirit, not elsewhere specified or included. 2008.1 - Nuts, ground-nuts and other seeds, whether or not mixed together : HS 2017 CHANGES - SCHEDULE CLXI - CABO VERDE - PART I - SECTION I-A Page 5 G/MA/TAR/RS/645 Tariff item no. Ex Description of products Base rate of duty Bound rate of duty Implementation Special Initial Other duties Earlier legal Other (HS 2017) period safeguard negotiating and charges instruments terms and conditions Ad val. Other Ad val. Other From To right (%) (%) (%) 1 2 3.A 3.B 4.A 4.B 5.A 5.B 6 7 8 9 10 2008.11.0000 - - Ground-nuts 25 0.5 CPV/08, WT/Let/1309 2008.19.0000 - - Other, including mixtures 25 0.5 CPV/08, WT/Let/1309 2008.20.0000 - Pineapples 25 0.5 CPV/08, WT/Let/1309 2008.30.0000 - Citrus fruit 25 0.5 CPV/08, WT/Let/1309 2008.40.0000 - Pears 25 0.5 CPV/08, WT/Let/1309 2008.50.0000 - Apricots 25 0.5 CPV/08, WT/Let/1309 2008.60.0000 - Cherries 25 0.5 CPV/08, WT/Let/1309 2008.70.0000 - Peaches, including nectarines 25 0.5 CPV/08, WT/Let/1309 2008.80.0000 - Strawberries 20 0.5 CPV/08, WT/Let/1309 2008.9 - Other, including mixtures other than those of subheading 2008.19 : 2008.91.0000 - - Palm hearts 20 0.5 CPV/08, WT/Let/1309 2008.93.0000 - - Cranberries (Vaccinium macrocarpon, 25 0.5 CPV/08, Vaccinium oxycoccos, Vaccinium vitis-idaea) WT/Let/1309 2008.97.0000 - - Mixtures 25 0.5 CPV/08, WT/Let/1309 2008.99.0000 - - Other 25 0.5 CPV/08, WT/Let/1309 2202 Waters, including mineral waters and aerated waters, containing added sugar or other sweetening matter or flavoured, and other non- alcoholic beverages, not including fruit or vegetable juices of heading 20.09. 2202.10.0000 - Waters, including mineral waters and aerated 55 0.5 CPV/08 waters, containing added sugar or other sweetening matter or flavoured 2202.9 - Other : HS 2017 CHANGES - SCHEDULE CLXI - CABO VERDE - PART I - SECTION I-A Page 6 G/MA/TAR/RS/645 Tariff item no. Ex Description of products Base rate of duty Bound rate of duty Implementation Special Initial Other duties Earlier legal Other (HS 2017) period safeguard negotiating and charges instruments terms and conditions Ad val. Other Ad val. Other From To right (%) (%) (%) 1 2 3.A 3.B 4.A 4.B 5.A 5.B 6 7 8 9 10 2202.91.0000 - - Non-alcoholic beer 55 0.5 CPV/08 2202.99.0000 - - Other 55 0.5 CPV/08 2204 Wine of fresh grapes, including fortified wines; grape must other than that of heading 20.09. 2204.10.0000 - Sparkling wine 55 0.5 CPV/08 2204.2 - Other wine; grape must with fermentation prevented or arrested by the addition of alcohol : 2204.21.0000 - - In containers holding 2 l or less 35 0.5 CPV/08 2204.22.0000 - - In containers holding more than 2 l but not 35 0.5 CPV/08 more than 10 l 2204.29.0000 - - Other 35 0.5 CPV/08 2204.30.0000 - Other grape must 25 0.5 CPV/08 3824 Prepared binders for foundry moulds or cores; chemical products and preparations of the chemical or allied industries (including those consisting of mixtures of natural products), not elsewhere specified or included. 3824.60.0000 - Sorbitol other than that of subheading 2905.44 10 0.5 CPV/08, WT/Let/1309 HS 2017 CHANGES - SCHEDULE CLXI - CABO VERDE - PART I - SECTION I-A Page 7 G/MA/TAR/RS/645 SCHEDULE CLXI - CABO VERDE This schedule is authentic only in the English language PART I - MOST-FAVOURED-NATION TARIFF SECTION II – OTHER PRODUCTS Tariff item no. Ex Description of products Base rate of duty Bound rate of duty Implementation Initial Other duties Earlier legal Other terms (HS 2017) period negotiating and charges instruments and right (%) conditions Ad val. Other Ad val. Other From To (%) (%) 1 2 3.A 3.B 4.A 4.B 5.A 5.B 6 7 8 9 0301 Live fish. 0301.1 - Ornamental fish : 0301.11.0000 - - Freshwater 25 0.5 CPV/08, WT/Let/1309 0301.19.0000 - - Other 25 0.5 CPV/08, WT/Let/1309 0301.9 - Other live fish : 0301.91.0000 - - Trout (Salmo trutta, Oncorhynchus mykiss, 20 0.5 CPV/08, Oncorhynchus clarki, Oncorhynchus aguabonita, WT/Let/1309 Oncorhynchus gilae, Oncorhynchus apache and Oncorhynchus chrysogaster) 0301.92.0000 - - Eels (Anguilla spp.) 20 0.5 CPV/08, WT/Let/1309 0301.93.0000 - - Carp (Cyprinus spp., Carassius spp., 20 0.5 CPV/08, Ctenopharyngodon idellus, Hypophthalmichthys WT/Let/1309 spp., Cirrhinus spp., Mylopharyngodon piceus, Catla catla, Labeo spp., Osteochilus hasselti, Leptobarbus hoeveni, Megalobrama spp.) 0301.94.0000 - - Atlantic and Pacific bluefin tunas (Thunnus 20 0.5 CPV/08, thynnus, Thunnus orientalis) WT/Let/1309 0301.95.0000 - - Southern bluefin tunas (Thunnus maccoyii) 20 0.5 CPV/08, WT/Let/1309 0301.99.0000 - - Other 20 0.5 CPV/08, WT/Let/1309 HS 2017 CHANGES - SCHEDULE CLXI - CABO VERDE - PART I - SECTION II Page 8 G/MA/TAR/RS/645 Tariff item no. Ex Description of products Base rate of duty Bound rate of duty Implementation Initial Other duties Earlier legal Other terms (HS 2017) period negotiating and charges instruments and right (%) conditions Ad val. Other Ad val. Other From To (%) (%) 1 2 3.A 3.B 4.A 4.B 5.A 5.B 6 7 8 9 0302 Fish, fresh or chilled, excluding fish fillets and other fish meat of heading 03.04. 0302.1 - Salmonidae, excluding edible fish offal of subheadings 0302.91 to 0302.99 : 0302.11.0000 - - Trout (Salmo trutta, Oncorhynchus mykiss, 20 0.5 CPV/08, Oncorhynchus clarki, Oncorhynchus aguabonita, WT/Let/1309 Oncorhynchus gilae, Oncorhynchus apache and Oncorhynchus chrysogaster) 0302.13.0000 - - Pacific salmon (Oncorhynchus nerka, 20 0.5 CPV/08, Oncorhynchus gorbuscha, Oncorhynchus keta, WT/Let/1309 Oncorhynchus tschawytscha, Oncorhynchus kisutch, Oncorhynchus masou and Oncorhynchus rhodurus) 0302.14.0000 - - Atlantic salmon (Salmo salar) and Danube 20 0.5 CPV/08, salmon (Hucho hucho) WT/Let/1309 0302.19.0000 - - Other 20 0.5 CPV/08, WT/Let/1309 0302.2 - Flat fish (Pleuronectidae, Bothidae, Cynoglossidae, Soleidae, Scophthalmidae and Citharidae), excluding edible fish offal of subheadings 0302.91 to 0302.99 : 0302.21.0000 - - Halibut (Reinhardtius hippoglossoides, 20 0.5 CPV/08, Hippoglossus hippoglossus, Hippoglossus WT/Let/1309 stenolepis) 0302.22.0000 - - Plaice (Pleuronectes platessa) 20 0.5 CPV/08, WT/Let/1309 0302.23.0000 - - Sole (Solea spp.) 20 0.5 CPV/08, WT/Let/1309 0302.24.0000 - - Turbots (Psetta maxima) 20 0.5 CPV/08, WT/Let/1309 0302.29.0000 - - Other 20 0.5 CPV/08, WT/Let/1309 0302.3 - Tunas (of the genus Thunnus), skipjack or stripe- bellied bonito (Euthynnus (Katsuwonus) pelamis), excluding edible fish offal of subheadings 0302.91 to 0302.99 : 0302.31.0000 - - Albacore or longfinned tunas (Thunnus 20 0.5 CPV/08, alalunga) WT/Let/1309 HS 2017 CHANGES - SCHEDULE CLXI - CABO VERDE - PART I - SECTION II Page 9 G/MA/TAR/RS/645 Tariff item no.
Load more

Recommended publications
  • Effect of Hypercholesterolaemia on Voltage-Operated Calcium Channel Currents in Rabbit Arterial Smooth Muscle Cells
    Journal of Human Hypertension (1999) 13, 849–853 1999 Stockton Press. All rights reserved 0950-9240/99 $15.00 http://www.stockton-press.co.uk/jhh Effect of hypercholesterolaemia on voltage-operated calcium channel currents in rabbit arterial smooth muscle cells GF Clunn, S Wijetunge and AD Hughes Clinical Pharmacology, NHLI, St. Mary’s Hospital, Imperial College of Science, Technology and Medicine, South Wharf Road, London, W2 1NY, UK Cholesterol is a major component of cell membranes capacitance was also greater in NZ cells. Consequently, and influences membrane fluidity. Watanabe heritable there was no significant difference in current density hyperpercholesterolaemic rabbits (WHHL) possess between NZ and WHHL cells either in the absence of defective receptors for low density lipoprotein leading drug or in the presence of the calcium channel agonist to increased plasma cholesterol, accumulation of chol- (+)202 791. Current voltage-relationships, kinetics of esterol in the arterial wall and atherosclerosis. In this fast inactivation and steady-state inactivation of IBa also study calcium channel currents (IBa) were compared did not differ significantly between WHHL and NZ. These using conventional whole cell voltage clamp techniques findings suggest that hypercholesterolaemia in WHHL in ear artery cells isolated from control New Zealand has no direct effect on calcium channel current density White rabbits (NZ) with those from WHHL. IBa were larger or voltage-modulation in arterial smooth muscle cells. in cells isolated from NZ than from WHHL, however cell Keywords: calcium channel; cholesterol; vascular smooth muscle; Watanabe hypercholesterolaemic rabbit Introduction atic cholesterol toxicity or other organ damage which develops in cholesterol-fed rabbits.15 WHHL Cholesterol is a major component of cell membranes 1,2 has therefore been proposed to be a model of human and influences membrane structure and fluidity.
    [Show full text]
  • Siteand Mechanism of Action of Resin Acids on Voltage-Gated Ion Channels
    Linköping University Medical Dissertation No. 1620 Site and Mechanism of Action of Resin Acids on Voltage-Gated Ion Channels Malin Silverå Ejneby Department of Clinical and Experimental Medicine Linköping University, Sweden Linköping 2018 © Malin Silverå Ejneby, 2018 Cover illustration: “The Charged Pine Tree Anchored to the Ground” was designed and painted by Daniel Silverå Ejneby. Printed in Sweden by LiU-Tryck, Linköping, Sweden, 2018 ISSN: 0345-0082 ISBN: 978-91-7685-318-4 TABLE OF CONTENTS ABSTRACT ............................................................................................................................... 1 POPULÄRVETENSKAPLIG SAMMANFATTNING ................................................................. 3 LIST OF ARTICLES .................................................................................................................. 5 INTRODUCTION ....................................................................................................................... 7 Ions underlie the electrical activity in the heart and brain .................................................. 7 A mathematical model for the nerve impulse - Hodgkin and Huxley ............................... 7 Cardiac action potentials – a great diversity of shapes ...................................................... 9 Voltage-gated ion channels ......................................................................................................... 9 General structure ....................................................................................................................
    [Show full text]
  • Niflumic Acid Hyperpolarizes Smooth Muscle Cells Via Calcium-Activated Potassium Channel in Spiral Modiolar Artery of Guinea Pigs1
    Acta Pharmacol Sin 2008 Jul; 29 (7): 789–799 Full-length article Niflumic acid hyperpolarizes smooth muscle cells via calcium-activated potassium channel in spiral modiolar artery of guinea pigs1 Li LI2,3, Ke-tao MA3,4, Lei ZHAO3, Jun-qiang SI3,4,5, Zhong-shuang ZHANG3, He ZHU3, Jing LI3 2Departmeng of Pharmacology, Tongji Medical College of Huazhong University of Science and Technology, Wuhan 430030, China; 3Labo- ratory of Xinjiang Endemic and Ethnic Diseases, Shihezi University Medical College, Xinjiang 832002, China; 4Fundamental Medical School of Wuhan University, Wuhan 430071, China Key words Abstract spiral modiolar artery; smooth muscle cells; Aim: The influence of niflumic acid (NFA), a Cl– channel antagonist, on the mem- 2+ niflumic acid; hyperpolarization; Ca - brane potentials in smooth muscle cells (SMC) of the cochlear spiral modiolar activated potassium channels; cochlea artery (SMA) in guinea pigs was examined. Methods: The intracellular recording 1This work was supported by the National and whole-cell recording technique were used to record the NFA-induced re- Natural Science Foundation of China (No sponse on the acutely-isolated SMA preparation. Results: The SMC had 2 stable 30460043); the Scientific and Technological Program for Overseas Personnel, the but mutually convertible levels of resting potentials (RP), that is, one was near –45 Ministry of Personnel, China (2006); and the mV and the other was approximately –75 mV, termed as low and high RP, Key Program of Scientific and Technological respectively. The bath application of NFA could cause a hyperpolarization in all Research, the Ministry of Education, China (Local Universities; No 207134). the low RP cells, but had little effect on high RP cells.
    [Show full text]
  • Potentiation of Large Conductance Kca Channels by Niflumic, Flufenamic, and Mefenamic Acids
    2272 Biophysical Journal Volume 67 December 1994 2272-2279 Potentiation of Large Conductance KCa Channels by Niflumic, Flufenamic, and Mefenamic Acids M. Ottolia and L. Toro Department of Molecular Physiology and Biophysics, Baylor College of Medicine, Houston, Texas 77030 USA ABSTRACT Large conductance calcium-activated K+ (Kca) channels are rapidly activated by niflumic acid dose- dependently and reversibly. External niflumic acid was about 5 times more potent than internal niflumic acid, and its action was characterized by an increase in the channel affinity for [Ca2l], a parallel left shift of the voltage-activation curve, and a decrease of the channel long-closed states. Niflumic acid applied from the external side did not interfere with channel block by charybdotoxin, suggesting that its site of action is not at or near the charybdotoxin receptor. Accordingly, partial tetraethylammonium blockade did not interfere with channel activation by niflumic acid. Flufenamic acid and mefenamic acid also stimulated KCa channel activity and, as niflumic acid, they were more potent from the external than from the internal side. Fenamates applied from the external side displayed the following potency sequence: flufenamic acid niflumic acid >> mefenamic acid. These results indicate that KCa channels possess at least one fenamatereceptor whose occupancy leads to channel opening. INTRODUCTION Large conductance calcium-activated K channels are present quently purified in a sucrose gradient. Membranes obtained from the of cell types (Latorre et al., 1989; McManus, 1991). 20%:25% and 25%:30% (w/w) sucrose interface were used. Lipid bi- in a variety layers were cast from a phospholipid solution in n-decane containing a In neurons they may regulate cell firing (Gola and Crest, 1993), 5:2:3 mixture of phosphatidylethanolamine/phosphatidylserine/phos- and in smooth muscle they seem to play an important role in phatidylcholine (25 mg/ml).
    [Show full text]
  • Molecular Properties of Drugs Interacting with SLC22 Transporters OAT1, OAT3, OCT1, and OCT2: a Machine-Learning Approach S
    Supplemental material to this article can be found at: http://jpet.aspetjournals.org/content/suppl/2016/08/03/jpet.116.232660.DC1 1521-0103/359/1/215–229$25.00 http://dx.doi.org/10.1124/jpet.116.232660 THE JOURNAL OF PHARMACOLOGY AND EXPERIMENTAL THERAPEUTICS J Pharmacol Exp Ther 359:215–229, October 2016 Copyright ª 2016 by The American Society for Pharmacology and Experimental Therapeutics Molecular Properties of Drugs Interacting with SLC22 Transporters OAT1, OAT3, OCT1, and OCT2: A Machine-Learning Approach s Henry C. Liu, Anne Goldenberg, Yuchen Chen, Christina Lun, Wei Wu, Kevin T. Bush, Natasha Balac, Paul Rodriguez, Ruben Abagyan, and Sanjay K. Nigam Departments of Bioengineering (H.C.L.), Pediatrics (A.G., Y.C., C.L., K.T.B., S.K.N.), Medicine (W.W., S.K.N.), Cellular and Molecular Medicine (S.K.N.), and Pharmacology (R.A.), and the San Diego Supercomputer Center (N.B., P.R.), University of California San Diego, La Jolla, California Downloaded from Received February 2, 2016; accepted July 20, 2016 ABSTRACT Statistical analysis was performed on physicochemical descrip- ligands; this was confirmed by quantitative atomic property field tors of ∼250 drugs known to interact with one or more SLC22 analysis. Virtual screening with this pharmacophore, followed by “drug” transporters (i.e., SLC22A6 or OAT1, SLC22A8 or OAT3, transport assays, identified several cationic drugs that selectively jpet.aspetjournals.org SLC22A1 or OCT1, and SLC22A2 or OCT2), followed by applica- interact with OAT3 but not OAT1. Although the present analysis tion of machine-learning methods and wet laboratory testing of may be somewhat limited by the need to rely largely on inhibition novel predictions.
    [Show full text]
  • Live Horses, Asses, Mules, and Hinnies: - - Horses: 0101.21.0000 - - - Purebred Breeding Animals No
    Schedule B No. Second Commodity Description Unit of and Headings Quantity Quantity 01 Live Animals 0101 - Live horses, asses, mules, and hinnies: - - Horses: 0101.21.0000 - - - Purebred breeding animals No. 0101.29.0000 - - - Other No. 0101.30.0000 - - Asses No. 0101.90.0000 - - Other No. 0102 - Live bovine animals: - - Cattle: 0102.21 - - - Purebred breeding animals: - - - - Dairy: 0102.21.0010 - - - - - Male No. 0102.21.0020 - - - - - Female No. - - - - Other: 0102.21.0030 - - - - - Male No. 0102.21.0050 - - - - - Female No. 0102.29.0000 - - - Other No. - - Buffalo: 0102.31.0000 - - - Purebred breeding animals No. 0102.39.0000 - - - Other No. 0102.90.0002 - - Other No. 0103 - Live swine: 0103.10.0000 - - Purebred breeding animals No. - - Other: 0103.91.0000 - - - Weighing less than 50 kg (110.23 lb.) each No. 0103.92.0000 - - - Weighing 50 kg (110.23 lb.) or more each No. 0104 - Live sheep and goats: 0104.10.0000 - - Sheep No. 0104.20.0000 - - Goats No. 0105 - Live poultry of the following kinds: chickens, ducks, geese, turkeys and guineas: - - Weighing not more than 185 g (6.53 oz.) each: 0105.11 - - - Chickens: - - - - Breeding stock, whether or not purebred: 0105.11.0010 - - - - - Layer-type (egg-type) No. 0105.11.0020 - - - - - Broiler-type (meat-type) No. 0105.11.0040 - - - - Other No. 0105.12.0000 - - - Turkeys No. 0105.13.0000 - - - Ducks No. 0105.14.0000 - - - Geese No. 0105.15.0000 - - - Guinea fowls No. - - Other: 0105.94.0000 - - - Chickens No. Schedule B No. Second Commodity Description Unit of and Headings Quantity Quantity 0105.99.0000 - - - Other No. 0106 - Other live animals: - - Mammals: 0106.11.0000 - - - Primates No. 0106.12.0100 - - - Whales, dolphins and porpoises (mammals of the order Cetacea); manatees and dugongs (mammals of the order Sirenia); seals, sea lions and walruses (mammals of the suborder Pinnipedia) No.
    [Show full text]
  • Effect of Cholesterol on the Organic Cation Transporter OCTN1
    International Journal of Molecular Sciences Article Effect of Cholesterol on the Organic Cation Transporter OCTN1 (SLC22A4) Lorena Pochini, Gilda Pappacoda, Michele Galluccio , Francesco Pastore, Mariafrancesca Scalise and Cesare Indiveri * Department of Biology, Ecology and Earth Sciences (DiBEST), Unit of Biochemistry and Molecular Biotechnology, University of Calabria, via P. Bucci 4c, 87036 Arcavacata di Rende, Italy; [email protected] (L.P.); [email protected] (G.P.); [email protected] (M.G.); [email protected] (F.P.); [email protected] (M.S.) * Correspondence: [email protected]; Tel.: +39-0984-492939 Received: 18 December 2019; Accepted: 3 February 2020; Published: 6 February 2020 Abstract: The effect of cholesterol was investigated on the OCTN1 transport activity measured as [14C]-tetraethylamonium or [3H]-acetylcholine uptake in proteoliposomes reconstituted with native transporter extracted from HeLa cells or the human recombinant OCTN1 over-expressed in E. coli. Removal of cholesterol from the native transporter by MβCD before reconstitution led to impairment of transport activity. A similar activity impairment was observed after treatment of proteoliposomes harboring the recombinant (cholesterol-free) protein by MβCD, suggesting that the lipid mixture used for reconstitution contained some cholesterol. An enzymatic assay revealed the presence of 10 µg cholesterol/mg total lipids corresponding to 1% cholesterol in the phospholipid mixture used for the proteoliposome preparation. On the other way around, the activity of the recombinant OCTN1 was stimulated by adding the cholesterol analogue, CHS to the proteoliposome preparation. Optimal transport activity was detected in the presence of 83 µg CHS/ mg total lipids for both [14C]-tetraethylamonium or [3H]-acetylcholine uptake.
    [Show full text]
  • Effect of K+ Channel Openers on K+ Channel in Cultured Human Dermal Papilla Cells
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Tokushima University Institutional Repository 73 Effect of K+ channel openers on K+ channel in cultured human dermal papilla cells Hiroyasu Hamaoka*, Kazuo Minakuchi*, Hirokazu Miyoshi‡, Seiji Arase†, Chun-He Chen‡ and Yutaka Nakaya‡ *The Department of Pharmacy ; †The Department of Dermatology ; and ‡The Department of Nutrition, The University of Tokushima School of Medicine, Tokushima, Japan Abstract : Minoxidil sulfate and pinacidil, well-known activators of the ATP-sensitive K+ (KATP) channel, induce hair growth in clinical studies. The opening of K+ channels is thought to be an important mechanism in the regulation of hair follicles. In the present study, we used the patch clamp technique to characterize the K+ channels and tested the effect of K+ channel openers on K+ 2+ + channels in cultured human dermal papilla cells. In dermal papilla cells, the Ca -activated K (KCa) channel with large conductance (179.3±13.1 pS in symmetrical 150 mM K+ solutions, n=9) was dominant and we could not observe KATP channels in cell-attached and inside-out patches. In addition, minoxidil and pinacidil failed to activate KATP or KCa channels. In inside-out membrane patches, the channel was blocked by 10 mM tetraethylammonium ion, 2 mM 4-aminopyridine to the cytosolic face of the membrane or by lowering Ca2+ using 10 mM EGTA, but not by glibenclamide. In the cell-attached patch configurations, extracellular application of 1 mM sodium nitroprusside, a nitrovasodilator, activated the KCa channel. Methylene blue (2 mM) inhibited channel activation by sodium nitroprusside.
    [Show full text]
  • Relaxant Effects of Matrine on Aortic Smooth Muscles of Guinea Pigs1
    BIOMEDICAL AND ENVIRONMENTAL SCIENCES 22, 327-332 (2009) www.besjournal.com Relaxant Effects of Matrine on Aortic Smooth Muscles of Guinea Pigs1 # # * # # + #, +, 2 JIE ZHENG , PING ZHENG , XU ZHOU , LIN YAN , RU ZHOU , XUE-YAN FU , AND GUI-DONG DAI #Department of Pharmacology; *Department of Physiology, School of Basic Medical Science; +Ningxia Research Institute of Medicine & Pharmacy, Ningxia Medical University, Yinchuan 750004, Ningxia, China Objective To determine whether matrine, a kind of traditional Chinese medicinal alkaloid, can relax the aortic smooth muscles isolated from guinea pigs and to investigate the mechanism of its relaxant effects. Methods Phenylephrine or potassium chloride concentration-dependent relaxation response of aortic smooth muscles to matrine was studied in the precontracted guinea pigs. Results Matrine (1×10-4 mol/L -3.3×10-3 mol/L) relaxed the endothelium-denuded aortic rings pre-contracted sub-maximally with phenylephrine, in a concentration-dependent manner, and its pre-incubation (3.3×10-3 mol/L) produced a significant rightward shift in the phenylephrine dose-response curve, but had no effects on the potassium chloride-induced contraction. The anti-contractile effect of matrine was not reduced by the highly selective ATP-dependent K+ -5 + -3 channel blocker glibenclamide (10 mol/L), either by the non-selective K channel blocker tetraethylammonium (10 mol/L), or by the β-antagonist propranolol (10-5 mol/L). In either “normal” or “Ca2+-free” bathing medium, the phenylephrine-induced contraction was attenuated by matrine (3.3×10-3 mol/L), indicating that the vasorelaxation was due to inhibition of intracellular and extracellular Ca2+ mobilization.
    [Show full text]
  • Recorded in the Presence of 120 Mm-Tetraethylammonium-Methanesulphonate and 10 Mm-Ca2+
    J. Physiol. (1986), 370, pp. 151-163 151 With 6 text-figures Printed in Great Brutain A FAST-ACTIVATED INWARD CALCIUM CURRENT IN TWITCH MUSCLE FIBRES OF THE FROG (RANA MONTEZUME) BY G. COTA* AND E. STEFANIt From the Department of Physiology and Biophysics, Centro de Investigacion y de Estudios Avanzados del I.P.N., Apartado Postal 14-740, Mexico, D.F. 07000, Mexico (Received 1 May 1985) SUMMARY 1. Voltage-clamp experiments were performed at 180C in intact twitch muscle fibres of the frog using the three micro-electrode technique. Membrane currents were recorded in the presence of 120 mM-tetraethylammonium-methanesulphonate and 10 mM-Ca2+. The recording solution was made hypertonic by adding 350 mM-sucrose to avoid contraction. 2. Two components of inward current in the absence of external Na+ were observed. Depolarization induced a fast-activated inward current of small amplitude in addition to the well-known slow, transient Ca2+ current (ICa, s) 3. Both components of inward current persisted in the presence of tetrodotoxin. They practically disappeared on replacing external Ca2+ with Mg2+ and were blocked by millimolar additions of Cd2+ to the bath. Thus, the fast-activated component of inward current was also carried by Ca2+ (ICa, f). Neither ICa, f nor ICa, s were reduced by 5 ,SM-diltiazem. 4. During 400 ms depolarizations Ica f was detected at approximately -60 mV, 30 mV more negative than the membrane potentials at which Ica s appeared. At about 0 mV the time constant for activation was 5 ms for Ica and 150 ms for ICa, s ca f did not significantly decline during depolarizations up to 2 s in duration at membrane potentials between -60 and -30 mV.
    [Show full text]
  • Meclofenamic Acid and Diclofenac, Novel Templates of KCNQ2/Q3 Potassium Channel Openers, Depress Cortical Neuron Activity and Exhibit Anticonvulsant Properties
    0026-895X/05/6704-1053–1066$20.00 MOLECULAR PHARMACOLOGY Vol. 67, No. 4 Copyright © 2005 The American Society for Pharmacology and Experimental Therapeutics 7112/1197210 Mol Pharmacol 67:1053–1066, 2005 Printed in U.S.A. Meclofenamic Acid and Diclofenac, Novel Templates of KCNQ2/Q3 Potassium Channel Openers, Depress Cortical Neuron Activity and Exhibit Anticonvulsant Properties Asher Peretz, Nurit Degani, Rachel Nachman, Yael Uziyel, Gilad Gibor, Doron Shabat, and Bernard Attali Department of Physiology and Pharmacology, Sackler Faculty of Medical Sciences (A.P., N.D., R.N., Y.U., G.G., B.A.) and School of Chemistry, Faculty of Exact Sciences (D.S.), Tel Aviv University, Tel Aviv, Israel Received September 10, 2004; accepted December 9, 2004 ABSTRACT The voltage-dependent M-type potassium current (M-current) hamster ovary cells. Both openers activated KCNQ2/Q3 chan- plays a major role in controlling brain excitability by stabilizing nels by causing a hyperpolarizing shift of the voltage activation the membrane potential and acting as a brake for neuronal curve (Ϫ23 and Ϫ15 mV, respectively) and by markedly slowing firing. The KCNQ2/Q3 heteromeric channel complex was iden- the deactivation kinetics. The effects of the drugs were stronger tified as the molecular correlate of the M-current. Furthermore, on KCNQ2 than on KCNQ3 channel ␣ subunits. In contrast, the KCNQ2 and KCNQ3 channel ␣ subunits are mutated in they did not enhance KCNQ1 Kϩ currents. Both openers in- families with benign familial neonatal convulsions, a neonatal creased KCNQ2/Q3 current amplitude at physiologically rele- form of epilepsy. Enhancement of KCNQ2/Q3 potassium cur- vant potentials and led to hyperpolarization of the resting mem- rents may provide an important target for antiepileptic drug brane potential.
    [Show full text]
  • Effects of Tetraethylammonium on Potassium Currents in a Molluscan Neuron
    Effects of Tetraethylammonium on Potassium Currents in a Molluscan Neuron A. HERMANN and A. L. F. GORMAN From the Department of Physiology, Boston University School of Medicine, Boston, Massachusetts 021 t8. A. Hermann's present address is Department of Biology, University of Konstanz, D-7750 Konstanz, Federal Republic of Germany. ABSTRACT The effects of tetraethylammonium (TEA) on the delayed K + current and on the Ca2+-activated K + current of the Aplysia pacemaker neurons R-15 and L-6 were studied. The delayed outward K + current was measured in Ca2+-free ASW containing tetrodotoxin (TTX), using brief depolarizing clamp pulses. External TEA blocks the delayed K + current reversibly in a dose- dependent manner. The experimental results are well fitted with a Michaelis- Menten expression, assuming a one-to-one reaction between TEA and a receptor site, with an apparent dissociation constant of 6.0 raM. The block depends on membrane voltage and is reduced at positive membrane potentials. The Ca 2+- activated K + current was measured in Ca2+-free artificial seawater (ASW) containing TTX, using internal Ca 2+ ion injection to directly activate the K + conductance. External TEA and a number of other quaternary ammonium ions block the Ca2+-activated K + current reversibly in a dose-dependent manner. TEA is the most effective blocker, with an apparent dissociation constant, for a one-to-one reaction with a receptor site, of 0.4 raM. The block decreases with depolarization. The Caa+-activated K + current was also measured after intra- cellular iontophoretic TEA injection. Internal TEA blocks the Ca2+-activated K + current (but the block is only apparent at positive membrane potentials), is increased by depolarization, and is irreversible.
    [Show full text]