Leon T. Garretson scite author profile

Leon T. Garretson

5Publications

48Citation Statements Received

73Citation Statements Given

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Affiliations

The University of Texas at Austin, The University of Texas Health Science Center at Houston, The University of Texas Medical Branch at Galveston

Publications

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Distinct ryanodine- and inositol 1,4,5-trisphosphate-binding sites in hepatic microsomes

Shoshan‐Barmatz

Zhang

Garretson

et al. 1990

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A light hepatic microsomal preparation was fractionated by sucrose-density centrifugation into one rough, one intermediate and two smooth fractions. The four fractions were characterized with respect to parameters relevant to Ca2+ sequestration. Ca2(+)-ATPase activity was similar in the rough, intermediate and smooth I fractions, but lower in the smooth II fraction. Ca2+ accumulation was the highest in the smooth I and intermediate fractions. On the other hand, Ca2+ efflux from the rough fraction was several-fold faster than from the smooth I fraction. All four subfractions exhibited specific binding sites for inositol 1,4,5-trisphosphate (IP3) and ryanodine; however, the receptors were especially enriched in the smooth I fraction. The total binding sites for ryanodine in that fraction exceeded the number of binding sites for IP3 by about 10-fold. The two receptors responded differently to pharmacological agents; caffeine and dantrolene strongly inhibited ryanodine binding but not IP3 binding, whereas heparin inhibited IP3 binding only. Thus the two receptors are distinct entities. The four fractions also showed distinct gel electrophoretic patterns. The use of two different SDS/polyacrylamide-gel gradients and two protein-staining methods revealed major differences in the distribution of the bands corresponding to Mr values of (x 10(-3) 380, 320, 260, 170, 90, 29 and 21. These proteins were enriched in the smooth fraction. The results indicate that the smooth I fraction might have special importance in stimulus-evoked Ca2(+)-release processes.

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Identification and quantification of mitochondria-rich cells in transporting epithelia

Karnaky¹,

Degnan²,

Garretson³

et al. 1984

American Journal of Physiology-Regulatory, Integrative and Comp

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Fluorescent dyes specific for mitochondria have become important tools in the study of transporting epithelia. These dyes permit the localization and quantification of mitochondria-rich (MR) cells in these epithelia. To determine the specificity of the dye, dimethylaminostyrylmethylpyridiniumiodine ( DASPMI ), we combined fluorescence microscopy of this dye with the ultrastructural localization of the mitochondrial enzyme, cytochrome oxidase. Labeled cells were traced from the fluorescence-microscopic to the electron-microscopic level by devising several novel technical procedures. This new methodology assures a critical assessment of the specificity of fluorescent mitochondrial dyes in heterogeneous epithelia. Confirmation of DASPMI specificity allows the unequivocal identification of MR chloride cells in two epithelia in the head region of Fundulus heteroclitus and validates linear regression analysis of chloride cell number and short-circuit current in this species. In addition, this method provides a permanent, flat whole mount of labeled cells for morphological studies with the light microscope and with the scanning and transmission electron microscopes.

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Seasonal variations in the fine structure of the Necturus maculosus urinary bladder epithelium: Low transporters and high transporters

Karnaky¹,

Lau²,

Garretson³

et al. 1984

Am. J. Anat.

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Although the urinary bladder of Necturus maculosus provides an important model system for studying the mechanisms of active Na absorption, little critical attention has been paid to the fine structure of its epithelium. Moreover, two distinct groups of urinary bladders, low and high Na transporters, have been described based on short-circuit current or transepithelial potential difference. In the present study, over an 11-month period, stable electrical parameters (short-circuit current, transepithelial potential difference, and resistance) were recorded from 63 chamber-mounted bladders. Analysis of these parameters revealed a highly significant difference between two groups (low transporters and high transporters) occurring at different times of the year. Consistent with these data, in urine collected from the bladders, the Na concentration in low transporters was significantly higher than that in high transporters. A subpopulation of these bladders was subsequently fixed and examined at the light and/or electron microscopic level. Low-transporting bladders were characterized unequivocally by a thin, stratified squamous epithelium only 6-15 micron thick. High-transporting bladders were composed predominantly of columnar-shaped granular cells up to 70 micron in height, with ciliated, mitochondria-rich, and basal cells present in small numbers. There is thus a correlation between transport activity, as measured by electrophysiological techniques and urine sodium analysis, and the structure of the tissue. Moreover, these parameters exhibit significant seasonal variation, the underlying mechanisms of which remain obscure.

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Video‐enhanced microscopy of organelle movement in an intact epithelium

Karnaky¹,

Garretson²,

O’Neil³

1992

Journal of Morphology

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Digitally enhanced video microscopy has provided improved optical resolution in the study of intracellular organelle/particle movement, particularly in extruded axoplasm and certain thin single cell systems. We report here, for the first time, particle movement in an intact, isolated epithelium, the killifish proximal convoluted tubule. Cytoplasmic particles exhibited predominantly unidirectional linear movement approaching several microns in length, sometimes with multiple turns. The velocities of 34 particles measured in 11 cells averaged 0.29 microns/sec (range, 0.007-3.1 microns/sec). Microtubules--the well-established basis for organelle movement in cells--were present but were sparsely represented in electron micrographs of these cells. Video-enhanced microscopic techniques can now be applied to the study of organelle/particle movement in an intact epithelium.

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A nonenzymatic preparation of epithelial basolateral membrane for patch clamp

Wehner

Garretson

Dawson

et al. 1990

American Journal of Physiology-Cell Physiology

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A preparation has been developed that permits patch clamping of the basolateral membrane of Necturus gallbladder epithelial cells with a high success rate. The epithelium is separated from the underlying tissues mechanically, without enzymatic treatment. Its apical surface is attached to a plastic cover slip, and the basolateral surface, facing up, is cleaned with a suction pipette under microscopic observation. With this cleaning procedure, the success rate in obtaining gigaohm seals increases from less than 1% to approximately 10% of the attempts. The cells appear to retain their structural and functional integrity, as evidenced by electron-microscopic appearance and magnitude of cell membrane voltages. Major advantages of the preparation are that the basolateral membrane domain is preserved and that enzymatic treatment, which could potentially alter membrane proteins, is not necessary.

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Leon T. Garretson

Distinct ryanodine- and inositol 1,4,5-trisphosphate-binding sites in hepatic microsomes

Identification and quantification of mitochondria-rich cells in transporting epithelia

Seasonal variations in the fine structure of the Necturus maculosus urinary bladder epithelium: Low transporters and high transporters

Video‐enhanced microscopy of organelle movement in an intact epithelium

A nonenzymatic preparation of epithelial basolateral membrane for patch clamp

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