Functional and immunocytochemical evidence for the expression and localization of the secretory pathway Ca²⁺-ATPase isoform 1 (SPCA1) in cerebellum relative to other Ca²⁺ pumps
Membrane fractions of pig cerebellum show Ca²⁺-ATPase activdity and Ca²⁺ transport due to the presence of the secretory pathway Ca²⁺-ATPase (SPCA). The SPCA1 isoform shows a wide distribution in the neurons of pig cerebellum, where it is found in the Golgi complex of the soma of Purkinje, stellate,...
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| Published in: | Journal of neurochemistry Vol. 103; no. 3; pp. 1009 - 1018 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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01-11-2007
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| Abstract | Membrane fractions of pig cerebellum show Ca²⁺-ATPase activdity and Ca²⁺ transport due to the presence of the secretory pathway Ca²⁺-ATPase (SPCA). The SPCA1 isoform shows a wide distribution in the neurons of pig cerebellum, where it is found in the Golgi complex of the soma of Purkinje, stellate, basket and granule cells, and also in more distal components of the secretory pathway associated with a synaptic localization such as in cerebellar glomeruli. The SPCA1 may be involved in loading the Golgi complex and the secretory vesicles of these specific neuronal cell types with Ca²⁺ and also Mn²⁺. This study of the cellular and subcellular localization of SPCA1 pumps relative to the sarco(endo) plasmic reticulum Ca²⁺-ATPase and plasma membrane Ca²⁺-ATPase pumps hints to a possible specific role of SPCA1 in controlling the luminal secretory pathway Ca²⁺ (or Mn²⁺) levels as well as the local cytosolic Ca²⁺ levels. In addition, it helps to specify the zones that are most vulnerable to Ca²⁺ and/or Mn²⁺ dyshomeostasis, a condition that is held responsible of an increasing number of neurological disorders. |
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| AbstractList | Membrane fractions of pig cerebellum show Ca²⁺-ATPase activdity and Ca²⁺ transport due to the presence of the secretory pathway Ca²⁺-ATPase (SPCA). The SPCA1 isoform shows a wide distribution in the neurons of pig cerebellum, where it is found in the Golgi complex of the soma of Purkinje, stellate, basket and granule cells, and also in more distal components of the secretory pathway associated with a synaptic localization such as in cerebellar glomeruli. The SPCA1 may be involved in loading the Golgi complex and the secretory vesicles of these specific neuronal cell types with Ca²⁺ and also Mn²⁺. This study of the cellular and subcellular localization of SPCA1 pumps relative to the sarco(endo) plasmic reticulum Ca²⁺-ATPase and plasma membrane Ca²⁺-ATPase pumps hints to a possible specific role of SPCA1 in controlling the luminal secretory pathway Ca²⁺ (or Mn²⁺) levels as well as the local cytosolic Ca²⁺ levels. In addition, it helps to specify the zones that are most vulnerable to Ca²⁺ and/or Mn²⁺ dyshomeostasis, a condition that is held responsible of an increasing number of neurological disorders. Membrane fractions of pig cerebellum show Ca2+-ATPase activity and Ca2+ transport due to the presence of the secretory pathway Ca2+-ATPase (SPCA). The SPCA1 isoform shows a wide distribution in the neurons of pig cerebellum, where it is found in the Golgi complex of the soma of Purkinje, stellate, basket and granule cells, and also in more distal components of the secretory pathway associated with a synaptic localization such as in cerebellar glomeruli. The SPCA1 may be involved in loading the Golgi complex and the secretory vesicles of these specific neuronal cell types with Ca2+ and also Mn2+. This study of the cellular and subcellular localization of SPCA1 pumps relative to the sarco(endo) plasmic reticulum Ca2+-ATPase and plasma membrane Ca2+-ATPase pumps hints to a possible specific role of SPCA1 in controlling the luminal secretory pathway Ca2+ (or Mn2+) levels as well as the local cytosolic Ca2+ levels. In addition, it helps to specify the zones that are most vulnerable to Ca2+ and/or Mn2+ dyshomeostasis, a condition that is held responsible of an increasing number of neurological disorders. Membrane fractions of pig cerebellum show Ca2+-ATPase activdity and Ca2+ transport due to the presence of the secretory pathway Ca2+-ATPase (SPCA). The SPCA1 isoform shows a wide distribution in the neurons of pig cerebellum, where it is found in the Golgi complex of the soma of Purkinje, stellate, basket and granule cells, and also in more distal components of the secretory pathway associated with a synaptic localization such as in cerebellar glomeruli. The SPCA1 may be involved in loading the Golgi complex and the secretory vesicles of these specific neuronal cell types with Ca2+ and also Mn2+. This study of the cellular and subcellular localization of SPCA1 pumps relative to the sarco(endo) plasmic reticulum Ca2+-ATPase and plasma membrane Ca2+-ATPase pumps hints to a possible specific role of SPCA1 in controlling the luminal secretory pathway Ca2+ (or Mn2+) levels as well as the local cytosolic Ca2+ levels. In addition, it helps to specify the zones that are most vulnerable to Ca2+ and/or Mn2+ dyshomeostasis, a condition that is held responsible of an increasing number of neurological disorders. [PUBLICATION ABSTRACT] Membrane fractions of pig cerebellum show Ca2+‐ATPase activdity and Ca2+ transport due to the presence of the secretory pathway Ca2+‐ATPase (SPCA). The SPCA1 isoform shows a wide distribution in the neurons of pig cerebellum, where it is found in the Golgi complex of the soma of Purkinje, stellate, basket and granule cells, and also in more distal components of the secretory pathway associated with a synaptic localization such as in cerebellar glomeruli. The SPCA1 may be involved in loading the Golgi complex and the secretory vesicles of these specific neuronal cell types with Ca2+ and also Mn2+. This study of the cellular and subcellular localization of SPCA1 pumps relative to the sarco(endo) plasmic reticulum Ca2+‐ATPase and plasma membrane Ca2+‐ATPase pumps hints to a possible specific role of SPCA1 in controlling the luminal secretory pathway Ca2+ (or Mn2+) levels as well as the local cytosolic Ca2+ levels. In addition, it helps to specify the zones that are most vulnerable to Ca2+ and/or Mn2+ dyshomeostasis, a condition that is held responsible of an increasing number of neurological disorders. |
| Author | Marcos, Daniel Wuytack, Frank Sepúlveda, M. Rosario Mata, Ana M Berrocal, María |
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| Keywords | Cerebellum Calcium Central nervous system Encephalon transporting ATPase secretory pathway Ca2+-ATPase 1 Localization Neurological disorder Ungulata Vesicle Nervous system diseases Granule neuron Enzyme Ion transport Golgi complex and secretory pathway calcium pumps Pig Vertebrata Mammalia Membrane pump Plasma membrane Hydrolases Artiodactyla Basket neuron Ca |
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| Snippet | Membrane fractions of pig cerebellum show Ca²⁺-ATPase activdity and Ca²⁺ transport due to the presence of the secretory pathway Ca²⁺-ATPase (SPCA). The SPCA1... Membrane fractions of pig cerebellum show Ca2+‐ATPase activdity and Ca2+ transport due to the presence of the secretory pathway Ca2+‐ATPase (SPCA). The SPCA1... Membrane fractions of pig cerebellum show Ca2+-ATPase activity and Ca2+ transport due to the presence of the secretory pathway Ca2+-ATPase (SPCA). The SPCA1... Membrane fractions of pig cerebellum show Ca2+-ATPase activdity and Ca2+ transport due to the presence of the secretory pathway Ca2+-ATPase (SPCA). The SPCA1... |
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| SubjectTerms | Adrenals. Interrenals Adrenomedullary hormones. Regulation Animals Biochemistry Biochemistry and metabolism Biological and medical sciences Brain Calcium - metabolism calcium pumps Calcium Signaling - physiology Calcium-Transporting ATPases - metabolism Cell Membrane - enzymology Cellular biology Central nervous system cerebellum Cerebellum - enzymology Cytosol - metabolism Endoplasmic Reticulum - metabolism Endoplasmic Reticulum - ultrastructure Fundamental and applied biological sciences. Psychology Golgi Apparatus - metabolism Golgi Apparatus - ultrastructure Golgi complex and secretory pathway Hogs Immunohistochemistry Manganese - metabolism Membranes Neurology Neurons - enzymology Protein Isoforms - metabolism secretory pathway Ca2+‐ATPase 1 secretory pathway Ca²⁺-ATPase 1 Secretory Vesicles - metabolism Secretory Vesicles - ultrastructure Signal Transduction - physiology Sus scrofa Vertebrates: endocrinology Vertebrates: nervous system and sense organs |
| Title | Functional and immunocytochemical evidence for the expression and localization of the secretory pathway Ca²⁺-ATPase isoform 1 (SPCA1) in cerebellum relative to other Ca²⁺ pumps |
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