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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This study aimed at increasing the efficiency and shortening the time required for administering cerebroside sulfate to cultured cells. For this purpose several modes of dispersion of a fluorescent derivative of cerebroside sulfate (sulfatide), in which the natural fatty acid has been replaced by pyrenedodecanoic acid (
P12
), were incubated with the cells. This fluorescent derivative of cerebroside sulfate (
P12
-CS) was introduced into the growth medium of the cells using the three following modes of dispersion: (1)
P12
-CS was dissolved in dimethylsulfoxide and added to the medium, (2) it was precomplexed with serum albumin or (3) incorporated into small, unilamellar vesicles (SUV) of phosphatidylcholine. With each of these respective modes of dispersion, the
P12
-CS was incubated for periods up to 48 h with cultured lymphoblasts or fibroblasts. Uptake by the cells could be determined by recording directly the cell-associated fluorescence, using a suspension of washed intact cells. The cell lipids were subsequently extracted with mixtures of chloroform/methanol and their fluorescence recorded. When related to the incubation time, uptake of
P12
-CS by the cells increased continuously using each of the above dispersions. The appearance of fluorescence at 475 nm ('excimer') and the ratio of this to the monomolecular fluorescence at 378 nm ('E/M') could be used as a measure for the presence of the internalized
P12
-CS in aggregated or fully dispersed states. These values (i.e., E/M), recorded on the suspensions of intact cells were rather high using the aqueous dispersions, intermediate values were observed using the SUV and rather low E/M values (0.5 or less) were observed using the preformed albumin-(
P12
-CS) complexes. Increasing the
mole
ratio of albumin to
P12
-CS (i.e., from 1:2 to 2:1 m/m), decreased the quantity of sulfatide which was taken up by the cells but also further decreased the E/M ratio, suggesting a fully dispersed state of the pyrene lipid within the cell. This indicated that, using an optimal albumin to
P12
-CS ratio of 1-2 (or its equivalent values in fetal calf serum) permitted an influx of single molecules of
P12
-CS into the cells. After 48 h, about 50% of the fluorescence of skin fibroblasts was found in metabolic degradation products of
P12
-CS. The parallel value for fibroblasts derived from a patient with metachromatic leukodystrophy was only about 5%. Appearance of the excimeric emission of a dispersion of
P12
-CS in water permitted estimation of its critical micellar concentration as being 7.5 x 10(-7) M.
...
PMID:Correlation of the dispersion state of pyrene cerebroside sulfate and its uptake and degradation by cultured cells. 292 62
Biochemical and immunological techniques were used to determine the emergence of interstitial retinol binding protein (IRBP), rhodopsin, and stored retinyl esters (all-trans and 11-cis) during retinal development in normal and rd mice. IRBP could be demonstrated at embryonic Day 17 (E17), corresponding to an early stage of inner segment development. Although all-trans retinyl esters were present earlier, 11-cis retinyl esters did not appear until postnatal Days 6-7 (P6-P7), corresponding to rod outer segment (ROS) disc formation. Rhodopsin was detected at the same developmental stage. The proportion of 11-cis retinyl esters reached a maximum of 40-50% at P15-P20. Thereafter, the proportion dropped, due to more rapid accumulation of the all-trans isomer. Rhodopsin and IRBP increased in parallel with ROS elongation up to P25, when the ROS had reached their mature lengths. The increases then continued up to P40-P50. In rd (retinal degeneration) mice, IRBP and rhodopsin were identical with the controls until
P12
, but then dropped as the photoreceptors degenerated. Synthesis and secretion of IRBP in vitro was less than 10% of the controls in rd retinas at P26, when only 4-5% of the photoreceptors survived. The quantities of retinyl esters (mainly stearate and palmitate in the ratio of 6:1, respectively) stored in dark-adapted mouse eyes progressively increased as the animals aged, representing 0.5
mole
eq. of the rhodopsin at 8 months. Although retinyl esters (11-cis and all-trans) also accumulated in rd mouse eyes up to
P12
, little further increase occurred. At P93, the retinyl esters (0.01 nmole X eye-1) were only 4% of the controls at P91. A peak in the proportion of 11-cis isomer occurred at P10-P20, but it averaged only 15% of the total ester and declined to 5% at P93. These findings support the hypothesis that IRBP is synthesized by the rods and cones, and suggest that its synthesis and secretion are initiated when the photoreceptor inner segments start to differentiate. 11-cis Retinoids and rhodopsin do not appear until the outer segments start to form. It is suggested that in the rd mouse the absence of photoreceptors, perhaps coupled with lack of normal interphotoreceptor matrix, leads to a loss in the ability of the pigment epithelium to store retinyl esters.
...
PMID:Rhodopsin, 11-cis vitamin A, and interstitial retinol-binding protein (IRBP) during retinal development in normal and rd mutant mice. 373 15
The hinge region of serpins is a conserved sequence of 8 amino acids located 7 residues away from the scissile bond at P8 to P15, on the edge of the protease-binding domain. In the inhibitory serpins the P8 to
P12
residues of this motif are usually small side-chain amino acids, most commonly alanine. Each of these residues in alpha1-antitrypsin was mutated to a glutamate, and the effect of a hinge-region glutamic acid substitution was found. While substitutions at positions P10 and
P12
affected the inhibitory characteristics of alpha1-antitrypsin, substitutions at positions P7, P8, P9, and P11 had no effect on inhibition. Thus, the conservation of residues with small side chains at the latter positions does not appear to be related to an essential function in the inhibitory mechanism. Following the glutamate substitution at P10, alpha1-antitrypsin remained a rapid inhibitor of elastase, but the elastase--serpin complex slowly broke down to yield active elastase and cleaved alpha1-antitrypsin. The glutamate substitution at
P12
caused the resultant molecule (
P12
Ala-->Glu) to become a partial substrate of elastase such that four moles of inhibitor were required to inhibit one
mole
of enzyme, and led to a 12-fold decrease in the association rate constant. The data could be interpreted in terms of the suicide substrate inhibition model for serpin-protease interactions and allowed a further refinement of the role of the hinge region in this process.
...
PMID:The contribution of the conserved hinge region residues of alpha1-antitrypsin to its reaction with elastase. 749 19
