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Metabolism of HDL apolipoprotein A-I and A-II in Type 1 (insulin-dependent) diabetes mellitus (1992)

Taskinen, M. -R. ; Kahri, J. ; Koivisto, V. ; [et al.]

Springer

Diabetologia 35 (1992), S. 347-356

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ISSN: 1432-0428

Keywords: Type 1 (insulin-dependent) diabetes mellitus ; HDL cholesterol ; apolipoprotein A-I ; apolipoprotein A-II ; kinetic analyses ; VLDL triglyceride ; lipolytic enzymes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Concentrations of HDL cholesterol and apolipoprotein A-I are commonly increased in Type 1 (insul-independent) diabetes mellitus but the mechanisms whereby diabetes influences HDL metabolism have not been studied. We investigated the metabolism of HDL apoproteins A-I and II in normolipidaemic Type 1 diabetic men (n=17, HbA1 6.4–11.9%) without microalbuminuria but with a wide range of HDL cholesterol (0.85–2.10 mmol/l) and in nondiabetic men (n=18) matched for body mass index and the range of HDL cholesterol. Input rates and fractional catabolic rates for apolipoproteins A-I and II were determined following injection of 125I-apolipoprotein A-I and 131I-apolipoprotein A-II tracers. Additional multicompartmental analysis was performed using a model to describe the kinetics of HDL particles containing only apolipoprotein A-I (Lp A-I) and apolipoprotein A-I and apolipoprotein A-II (Lp A-I/ A-II). No gross differences from normal subjects were observed in the mean levels of lipids, lipoproteins, apoproteins and the lipolytic enzymes in the diabetic men as a result of the selection process. Furthermore, the relationship between apolipoprotein A kinetics and plasma HDL cholesterol levels appeared to be preserved in the diabetic group. However, some normal interrelationships were disrupted in the diabetic men. Firstly, the rate of apolipoprotein A-II synthesis was 22% lower than in control subjects (p〈0.05). Modelling indicated that this was due to decreased input of Lp A-I/A-II particles whereas the input of Lp A-I particles was similar in the two groups. Secondly, there was no correlation between VLDL triglyceride and HDL cholesterol or VLDL triglyceride and the fractional catabolic rate of apolipoproteins A-I and A-II in diabetic men in contrast to that seen in control subjects. We conclude that there is a disruption in the normal association between VLDL and HDL metabolism in Type 1 diabetic men and postulate that the observed differences may be due to the therapeutic use of exogenous insulin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00401202

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Defective regulation of triglyceride metabolism by insulin in the liver in NIDDM (1997)

Malmström, R. ; Packard, C. J. ; Caslake, M. ; [et al.]

Springer

Diabetologia 40 (1997), S. 454-462

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ISSN: 1432-0428

Keywords: Keywords Apolipoprotein B ; stable isotopes ; insulin resistance ; non-esterified fatty acids ; cholesterol.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Insulin administration to healthy subjects inhibits the production of very low density lipoprotein (VLDL)1 (Svedbergs flotation (Sf) rate 60–400) without affecting that of VLDL2 (Sf 20–60) subclass. This study was designed to test whether this hormonal action is impaired in non-insulin-dependent diabetes mellitus (NIDDM). We studied six men with NIDDM (age 53 ± 3 years, body mass index 27.0 ± 1.0 kg/m2, plasma triglycerides 1.89 ± 0.22 mmol/l) during an 8.5 h infusion of saline (control) and then in hyperinsulinaemic (serum insulin ∼ 540 pmol/l) conditions during 8.5 h infusions of glucose and insulin to give either hyper- and normoglycaemic conditions. [3-2H]-leucine was used as tracer and kinetic constants derived using a non-steady-state multicompartmental model. Compared to the control study, patients with NIDDM reduced VLDL1 apo B production by only 3 ± 8 % after 8.5 h of hyperinsulinaemia (701 ± 102 vs 672 ± 94 mg/day respectively, NS) in hyperglycaemic conditions and by 9 ± 21 % under normoglycaemic conditions (603 ± 145 mg/day). In contrast, in normal subjects insulin induced a 50 ± 15 % decrement in VLDL1 apo B production (p 〈 0.05). Direct synthesis of VLDL2 apo B in patients with NIDDM was not markedly affected by insulin. We conclude that a contributory factor to hypertriglyceridaemia in NIDDM is the inability of insulin to inhibit acutely the release of VLDL1 from the liver, despite efficient suppression of serum non-esterfied fatty acids. [Diabetologia (1997) 40: 454–462]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250050700

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Studies of apolipoprotein B-100 metabolism using radiotracers and stable isotopes (1997)

Demant, T. ; Packard, C. J.

Springer

European journal of pediatrics 156 (1997), S. S75

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ISSN: 1432-1076

Keywords: Key words Apolipoprotein B ; Lipoprotein metabolism ; Stable isotope kinetics ; Turnover study

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Apolipoprotein B metabolism can be investigated in-vivo either by exogenous radiolabeling of preformed lipoproteins or by endogenous labelling of de-novo synthesized apo B using a stable isotope substituted amino acid tracer. The potential of both methods and results obtained by in-vivo studies in genetically determined dys- or hyperlipidaemic subjects will be discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00014277

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Very low density lipoprotein apolipoprotein B metabolism in humans (1988)

Demant, Th. ; Shepherd, J. ; Packard, C. J.

Springer

Journal of molecular medicine 66 (1988), S. 703-712

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ISSN: 1432-1440

Keywords: VLDL-LDL conversion in normal and hyperlipoproteinaemic subjects ; Multicompartmental modelling ; Metabolic channelling

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The human plasma lipoproteins encompass a broad spectrum of particles of widely varying physical and chemical properties whose metabolism is directed by their protein components. Apolipoprotein B100 (apo B100) is the major structural protein resident in particles within the Svedberg flotation range 0–400. The largest of these, the very low density lipoprotein (VLDL), rich in triglyceride, are metabolised by sequential delipidation through a transient intermediate density lipoprotein (IDL) to cholesterol-rich low density lipoproteins (LDL). Several components contribute to the regulation of this process, including (a) the lipolytic enzymes lipoprotein lipase and hepatic lipase (b), apolipoproteins B, CII, CIII and E, and (c) the apolipoprotein B/E or LDL receptor. Lipoprotein lipase acts primarily on large VLDL of Sf 60–400. Hepatic lipase on the other hand seems to be critical for the conversion of smaller particles (Sf 12–60) to LDL (Sf 0–12). Although most apo B100 flux is directed to the production of the delipidation end product LDL, along the length of the cascade there is potential for direct removal of particles from the system, probably via the actions of cell membrane receptors. This alternative pathway is particularly evident in hypertriglyceridaemic subjects, in whom the delipidation process is retarded. VLDL metabolism shows inter subject variability even in normal individuals. In this regard, apolipoprotein E plays an important role. Normolipidaemic individuals homozygous for the apo E2 variant exhibit gross disturbances in the transit of B protein through the VLDL-IDL-LDL chain.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01726412

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