Gladys E. Deibler scite author profile

A quantitative autoradiographic method for the determination of local rates of protein synthesis in brain in vivo is being developed. The method employs L-[1-'4C]leucine as the radiolabeled tracer. A comprehensive model has been designed that takes into account intracellular and extracellular spaces, intracellular compartmentation of leucine, and the possibility of recycling of unlabeled leucine derived from steadystate degradation of protein into the precursor pool for protein synthesis. We have evaluated the degree of recycling by measuring the ratio of the steady-state precursor pool distribution space for labeled leucine to that of unlabeled leucine. The values obtained were 0.58 in whole brain and 0.47 in liver. These results indicate that there is significant recycling of unlabeled amino acids derived from steady-state protein degradation in both tissues. Any method for the determination of rates of cerebral protein synthesis in vivo with labeled tracers that depends on estimation of precursor pool specific activity in tissue from measurements in plasma must take this recycling into account.The autoradiographic deoxyglucose method (1) for measurement of local cerebral glucose utilization provides a useful model for the design of methods to determine local rates of biochemical processes within tissues in vivo. We have used the same general approach to develop a method for the quantitative determination of local rates of protein synthesis, or, more precisely, amino acid incorporation into protein, in the nervous system (2, 3). The method is an application of the basic principles for the assay of rates of chemical reactions with isotopes adapted for the special conditions encountered in vivo (4). Briefly, the total amount of labeled product specific to the reaction of interest (in this case labeled protein) formed in the selected tissue over an interval of time is divided by the integrated specific activity (SA) of the precursor pool over the same interval and corrected for any isotope effect (4). This relationship can be expressed as follows:

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Increased calpain expression in activated glial and inflammatory cells in experimental allergic encephalomyelitis

Shields

Tyor

Deibler

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

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In demyelinating diseases such as multiple sclerosis (MS), myelin membrane structure is destabilized as myelin proteins are lost. Calcium-activated neutral proteinase (calpain) is believed to participate in myelin protein degradation because known calpain substrates [myelin basic protein (MBP); myelin-associated glycoprotein] are degraded in this disease. In exploring the role of calpain in demyelinating diseases, we examined calpain expression in Lewis rats with acute experimental allergic encephalomyelitis (EAE), an animal model for MS. Using double-immunof luorescence labeling to identify cells expressing calpain, we labeled rat spinal cord sections for calpain with a polyclonal millicalpain antibody and with mAbs for glial (GFAP, OX42, GalC) and inf lammatory (CD2, ED2, interferon ␥) cell-specific markers. Calpain expression was increased in activated microglia (OX42) and infiltrating macrophages (ED2) compared with controls. Oligodendrocytes (galactocerebroside) and astrocytes (GFAP) had constitutive calpain expression in normal spinal cords whereas reactive astrocytes in spinal cords from animals with EAE exhibited markedly increased calpain levels compared with astrocytes in adjuvant controls. Oligodendrocytes in spinal cords from rats with EAE expressed increased calpain levels in some areas, but overall the increases in calpain expression were small. Most T cells in grade 4 EAE expressed low levels of calpain, but interferon ␥-positive cells demonstrated markedly increased calpain expression. These findings suggest that increased levels of calpain in activated glial and inf lammatory cells in EAE may contribute to myelin destruction in demyelinating diseases such as MS.

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Role of phosphorylation in conformational adaptability of bovine myelin basic protein

1990

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Controlled thrombic digestion of a preparation of components 2 + 3 isolated from the 18.5 kDa bovine myelin basic protein (MBP) yielded a polypeptide that was monophosphorylated on threonine 97 (component 3pT97). This is the first posttranslationally phosphorylated MBP isolated in pure form. We studied the effect of this single phosphate on the conformational adaptability of 18.5 kDa bovine MBP by comparing the circular dichroism (CD) spectrum of component 3pT97 with the spectra of highly purified nonphosphorylated components 1 and 2. The CD spectra of nonphosphorylated component 1 and component 2 [monodeamidated form(s) of component 1] were indistinguishable, while component 3pt97 exhibited a different spectrum. The singly phosphorylated MBP component exhibited 13% more ordered conformations than that adopted by nonphosphorylated MBP in dilute aqueous solutions. This was estimated from the CD spectra, and apparently involved about 17 additional amino acid residues in beta-structure(s).

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Gladys E. Deibler

Large Scale Preparation of Myelin Basic Protein from Central Nervous Tissue of Several Mammalian Species

Measurement of local cerebral protein synthesis in vivo: influence of recycling of amino acids derived from protein degradation.

Increased calpain expression in activated glial and inflammatory cells in experimental allergic encephalomyelitis

Role of phosphorylation in conformational adaptability of bovine myelin basic protein

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