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Ultrastructure of the glomus cells in the carotid body of chronically hypoxic rats: With special reference to the similarity of amphibian glomus cells (1993)

Kusakabe, Tatsumi ; Powell, Frank L. ; Ellisman, Mark H.

New York, NY [u.a.] : Wiley-Blackwell

The @Anatomical Record 237 (1993), S. 220-227

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ISSN: 0003-276X

Keywords: Small vesicle cells ; Large vesicle cells ; Endothelial cells ; Carotid body ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: The ultrastructural characteristics of the glomus cells in the rat carotid body exposed to extremely long-term hypoxia (10-12 weeks) were investigated. The glomus cells could be classified into four distinct types according to the shape of dense-cored vesicles in the glomus cell cytoplasm: (1) small vesicle cells (SVCs, 50 nm in mean diameter), (2) large vesicle cells (LVCs, 80 nm in mean diameter), (3) dilated eccentric vesicle cells (EVCs, 400-800 nm in diameter), and (4) mixed vesicle cells (MVCs, large and eccentric vesicles). Many clusters of glomus cells were found to contain all four categories of cell types. The appearance of EVCs was a unique and common characteristic of glomus cells in this long-term hypoxia model. We also noted other ultrastructural features with chronic hypoxia which are characteristic of the amphibian carotid labyrinth glomus cells: (1) incomplete covering of glomus cells with the supporting cell missing over a wide area, (2) long thin cytoplasmic projections in the intervascular stroma, and (3) intimate apposition of the glomus cells and pericytes (g-p connection), endothelial cells (g-e connection), plasma cells, and fibrocytes. Because arterial PO2 is generally low in amphibia, these may be general features of hypoxic adaptation and facilitate both uptake of oxygen from blood and release of catecholamine into the blood. The g-p and g-e connections may take part in the regulation of the microcirculation in the enlarged carotid body. © 1993 Wiley-Liss Inc.

Additional Material: 10 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/ar.1092370209

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Crooked Neck Dwarf (cn) mutant chicken skeletal muscle cells in low density primary cultures fail to express normal α ryanodine receptor and exhibit a partial mutant phenotype (1993)

Airey, Judith A. ; Deerinck, Thomas J. ; Ellisman, Mark H. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Developmental Dynamics 197 (1993), S. 189-202

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ISSN: 1058-8388

Keywords: Crooked Neck Dwarf mutation ; Ryanodine receptor isoforms ; Skeletal muscle ; Muscle dysgenesis ; Chicken ; Embryonic development ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: The Crooked Neck Dwarf (cn) mutation in chickens causes marked changes in intact embryonic skeletal muscle. We have investigated whether the cn/cn phenotype develops in vitro, and if cultured muscle cells are suitable for studies of this mutation. The properties of cn/cn muscle cells maintained in low density primary cultures (6.25 × 103 cells/cm2) are described in this report. In normal muscle cells, the α ryanodine receptor (RyR) isoform appears prior to, and at greater levels than, the βRyR, and is detected in mononucleated myocytes. The βRyR isoform appears within 24 hr after the initiation of myotube formation, which is earlier than anticipated from studies with intact embryonic muscle. Normal αRyR protein is not detected in cultured cn/cn muscle cells, whereas the βRyR, the α1-subunit of the dihydropyridine receptor, the sarcoplasmic reticulum Ca2+-ATPase, and calsequestrin are expressed at comparable levels in normal and mutant muscle cells. Calcium transients elicited by electrical stimulation, acetylcholine, and caffeine are similar in normal and cn/cn cultured myotubes and are blocked by ryanodine in both cell types. In addition, comparable L- and T-type calcium currents are observed in normal and mutant muscle cells, suggesting that both the α1-subunit of the dihydropyridine receptor and the βRyR in mutant muscle cells are functional. Normal and cn/cn muscle cells proliferate and form myotubes in a similar manner. These latter events do not appear to depend on sarcoplasmic reticulum calcium release, as they also occur in normal muscle cells in which calcium release is prevented by chronic treatment with 100 μM ryanodine. Both cn/cn and ryanodine-treated normal muscle cells exhibit morphological changes similar to those observed in intact cn/cn skeletal muscle. Thus, the mutant phenotype observed in ovo is partially expressed under low density culture conditions, and neither βRyR protein nor its function appear to be capable of preventing the associated changes. © 1993 Wiley-Liss, Inc.

Additional Material: 11 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001970304

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Failure to make normal α ryanodine receptor is an early event associated with the Crooked Neck Dwarf (cn) mutation in chicken (1993)

Airey, Judith A. ; Baring, Martha D. ; Beck, Claudia F. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Developmental Dynamics 197 (1993), S. 169-188

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ISSN: 1058-8388

Keywords: Crooked Neck Dwarf mutation ; Chicken ; Embryonic development ; Skeletal muscle dysgenesis ; Skeletal muscle dysgenesis ; Skeletal muscle dysfunction ; Ryanodine receptor isoforms ; Skeletal muscle ; Cardiac muscle ; Cerebellum ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: We have investigated the molecular basis of the Crooked Neck Dwarf (cn) mutation in embryonic chickens. Using biochemical and pharmacological techniques we are unable to detect normal α ryanodine receptor (RyR) protein in intact cn/cn skeletal muscle. Extremely low levels of αRyR immunoreactivity can be observed in mutant muscles, but the distribution of this staining differs from that in normal muscle and colocalizes with the rough endoplasmic reticulum immunoglobulin binding protein, BiP. This suggests the existence of an abnormal αRyR protein in mutant muscle. In day E12 cn/cn muscle the levels of RyR mRNA are reduced by ∼80%, while the levels of other muscle proteins, including the α1 subunit of the dihydropyridine receptor, the SRCa2+-ATPase, calsequestrin, and glyceraldehyde-3-phosphate dehydrogenase, and their associated mRNAs are essentially normal in cn/cn muscle. There is also a failure to express αRyR in cn/cn cerebellar Purkinje neurons. Expression of the βRyR, a second RyR isoform, is not initiated in normal skeletal muscle until day E18. In cn/cn skeletal muscle significant muscle degeneration has occurred by this time and the βRyR is found at low levels in only a subset of fibers suggesting the reduced levels of this isoform are a secondary consequence of the mutation. The cardiac RyR isoform is found in cn/cn cardiac muscle, which contracts in a vigorous manner. In summary, a failure to make normal αRyR receptor appears to be an event closely associated with the cn mutation and one which may be largely responsible for development of the cn/cn phenotype in embryonic skeletal muscle. © 1993 Wiley-Liss, Inc.

Additional Material: 14 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001970303

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