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Target Concepts:
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Query: UMLS:C0020473 (
hyperlipidemia
)
15,891
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the antilipoprotein type of autoimmune
hyperlipidemia
(AIH), the immunoglobulins (Ig) are bound to lipoproteins by their antibody site and circulate as immune Ig-Lp complexes. In the earlier studies, the specific antibody activities were demonstrated in vitro by specific but rather sophisticated methods which were not suitable for the screening of antilipoprotein AIH in large populations. In the Ig-Lp test described here, the immunoglobulins bound to the low density lipoproteins (Ig-Lp) are detected by floating the complexes at
D 1
.10 in the ultracentrifuge in a physiological saline sucrose density gradient; delipidating them by ether in the presence of 0.2 M urea, and assaying the protein by radial immunodiffusion and laser immunonephelometry with antisera specific for IgG, IgA, IgM, low density lipoproteins and albumin. Radial immunodioffusion and immunonephelometry gave similar results. This Ig-Lp test was positive in 5 myelomas associated with
hyperlipidemia
, which were previously classified as AIH with specific methods. And the test was specific for the Ig type of the monoclonal antibody involved in each case (3 IgA, 1 IgG and 1 IgM). It was negative in 6 normolipidemic myelomas and also in 40 sera from healthy blood donors and one normal serum taken 4 hours after a fat meal. Although the Ig-Lp test is not specific for antilipoprotein antibodies, the results of this study allow to use if for the screening for AIH.
...
PMID:Antilipoprotein autoimmune hyperlipidemia. The Ig-Lp test. 677 97
Fourteen dogs, fed a regular diet and given 250 mg/kg of triton (a non-ionic surface-active agent) intravenously every 4th day, exhibited a progressively severe
hyperlipemia
. Serum triglycerides were the first to increase. Cholesterol, mostly in the free form, and phospholipids showed elevation only at a later stage and increased at almost identical rates. The plasma-free fatty acid concentration was from 2 to 3 times above normal. With establishment of sustained
hyperlipemia
, there was reduction, followed by total disappearance, of the high density
D 1
.063 to 1.21 lipoprotein. Most of the cholesterol and phospholipids (70 to 75 per cent of the total) were found in the
D 1
.006 to 1.063 lipoprotein class, the remainder in the D < 1.006 class. Triglycerides were almost evenly distributed between these two classes. The concentration of the serum lipoprotein proteins was within normal limits. All of the animals died within from 4 to 5 months after receiving the first injection of triton. Autopsy findings consistently showed: (a) numerous lipidladen macrophages in the liver, spleen, and lymph nodes; (b) significant depletion of all fat stores; (c) presence of lipids, either free or engulfed in macrophages (foam cells), in the subintima of the coronary arteries, aorta, and pulmonary arteries, indicating an early stage of atherosclerosis. Concurrent daily administration of heparin (5 mg per kilogram of body weight) did not substantially change the course of the disease. Withdrawal of triton from animals that had been receiving the detergent for from 3 to 4 months, elicited a slow return to normal of the lipid pattern. In two dogs killed when normolipemia was reestablished, all tissues were normal with the minor exception of a few hepatic macrophages still laden with sudanophilic material. It is postulated that the primary action of the injected triton was on the lipid moieties of plasma lipoproteins with formation of complexes, which, as foreign bodies, were preferentially taken up by the cells of the reticuloendothelial system. Depletion of fat stores was probably secondary to increased lipid mobilization, as an attempt by these tissues to supply energy to the parenchymal cells unable to utilize triton-bound lipids.
...
PMID:Triton hyperlipemia in dogs. II. Atheroscieross, diffuse lipidosis, and deletion of fat stores produced by prolonged administration of the non-tonic surface-active agent. 1374 53
Triton WR-1339, a non-ionic detergent, added to canine serum or to ultracentrifugally separated lipoproteins, induced changes in the lipoproteins which were dependent upon concentration of detergent and class of lipoproteins.
D 1
.063 to 1.21 lipoprotein (alpha-LP) was especially sensitive to the action of triton. Addition of 2 mg. of triton to 1 mg. of alpha-LP (based on protein content), induced only slight changes in the electrophoretic and flotation characteristics of the lipoprotein. With a tenfold increase of the detergent (triton:alpha-LP, 20:1), the mixture, analyzed by starch gel and paper electrophoresis, yielded a tritonlipid complex which remained close to the origin, and a nearly lipid-free protein with electrophoretic mobility higher (starch gel) or lower (paper) than native alpha-LP. The splitting of the lipid and protein moieties of alpha-LP could not be clearly shown when the same mixture was analyzed by free boundary electrophoresis. Triton alone moved only slightly in an electrical field (paper, starch gel, Tiselius); it sedimented during ultracentrifugation at
D 1
.006 and
D 1
.063 and floated at
D 1
.21.
D 1
.006 to 1.063 lipoproteins (beta-LP), required larger amounts of triton to show changes. These were evident in 40 to 80:1 mixtures of triton and beta-LP. In starch gel and paper electrophoresis triton retained, in a position close to the origin, part of the lipids of beta-LP; the remaining beta-LP fraction, impoverished of lipids, had electrophoretic mobility similar to native beta-LP. The triton-lipid complex sedimented at
D 1
.063. After addition of triton to complexes [chylomicron-alpha-P-I(131)] or [lipomul-alpha-LP-1(131)], the electrophoretic and ultracentrifugal analyses of these mixtures revealed that the labeled protein was removed from the triglyceride component. Triton also prevented the occurrence of the interaction between lipomul and alpha-LP and the hydrolysis of both chylomicrons and lipomul-alpha-LP by lipoprotein lipase. It is postulated that, if the changes in lipoproteins and chylomicrons observed in vitro occur in vivo, they could account, at least in part, for the
hyperlipemia
which develops in animals following administration of triton.
...
PMID:Triton hyperlipemia in dogs. I. In vitro effects of the detergent on serum lipoproteins and chylomcrons. 1374 54
