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Effects of a high-cholesterol diet on arterial wall thickness and vascular reactivity in young rabbits (1992)

Ludwig, M. ; Stumpe, K. O. ; Sauer, A. ; [et al.]

Springer

Journal of molecular medicine 70 (1992), S. 105-112

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ISSN: 1432-1440

Keywords: Cholesterol diet ; Arterial wall thickness ; Vascular reactivity ; Duplex sonography

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Cholesterol enrichment of arteries may induce biochemical and structural abnormalities in vascular smooth muscle resulting in increased arterial contractile sensitivity. We studied the effects of a high-cholesterol diet on arterial structural properties and vascular reactivity in young rabbits. In vivo measurements of aortic intimal-plus-medial thickness using high resolution ultrasound imaging were obtained before and after 3 weeks of a high-cholesterol diet in 12 rabbits (group 2) and compared to data from 12 animals a cholesterol-free diet fed (group 1). Six rabbits (group 3) were studied before and after a 3-week, high-cholesterol diet and after a subsequent 13-week, cholesterol-free recovery diet. Blood pressure responsiveness to noradrenaline was evaluated before and at the end of each diet period. In groups 2 and 3, high dietary cholesterol caused an increase in intimal-plus-medial thickness from 0.31 mm and 0.33 mm to 0.88 mm and 0.89 mm, respectively (p〈0.001). Plasma cholesterol concentration rose from 0.9 ±0.26 mmol/l to 36.7 ± 8.56 mmol/l. There was no change in group 1. In group 3, intimal-plus-medial thickness remained increased (1.01 mm) following the cholesterol-free recovery diet despite normal plasma cholesterol. Blood pressure responsiveness to noradrenaline was markedly increased after the high-cholesterol diet (p〈0.001) in groups 2 and 3 and after the cholesterol-free recovery diet in group 3 (p〈0.001), and was directly related to intimal-plus-medial thickness (r=0.84;p〈0.001). The data indicate that short-term high dietary cholesterol in the early life of rabbits causes long-lasting biochemical and structural arterial wall abnormalities, which might not only explain the observed increase in blood pressure responsiveness to noradrenaline, but could also lead to persistent functional vascular smooth muscle alterations. The result may be a predisposition to increased vascular smooth muscle response to high dietary cholesterol in adult life and development of high blood pressure and atherosclerosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00227349

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Interaction sites on phosphorylase kinase for calmodulin (1993)

Heilmeyer, Ludwig M. G. ; Gerschinski, Andrea M. ; Meyer, Helmut E. ; [et al.]

Springer

Molecular and cellular biochemistry 127-128 (1993), S. 19-30

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ISSN: 1573-4919

Keywords: phosphorylase kinase ; calmodulin ; calmodulin-binding peptides ; Ca2+-binding

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Abstract Holophosphorylase kinase was digested with Glu-C specific protease; from the peptide mixture calmodulin binding peptides were isolated by affinity chromatography and identified by N-terminal sequence analysis. Two peptides originating from the α subunit, having a high tendency to form a positively charged amphiphilic helix and containing tryptophane, were synthesized. Additionally, a homologous region of the β subunit and a peptide from the α subunit present in a region deleted in the α′ isoform were also selected for synthesis. Binding stoichiometry and affinity were determined by following the enhancement in tryptophane fluorescence occurring upon 1:1 complex formation between these peptides and calmodulin. Finally, Ca2+ binding to calmodulin in presence of peptides was measured. By this way, the peptides α 542–566, α 547–571, α 660–677 and β 597–614 have been found to bind specifically to calmodulin. Together with previously predicted and synthesized calmodulin binding peptides four calmodulin binding regions have been characterized on each the α and β subunits. It can be concluded that endogenous calmodulin can bind to two calmodulin binding regions in γ as well as to two regions in α and β. Exogenous calmodulin can bind to two regions in α and in β. A binding stoichiometry of 0.8mol of calmodulin/αβγδ protomer of phosphorylase kinase has been determined by inhibiting the ubiquitination of calmodulin with phosphorylase kinase. Phosphorylase kinase is half maximally activated by 23nM calmodulin which is in the affinity range of calmodulin binding peptides from β to calmodulin. Therefore, binding of exogenous calmodulin to β activates the enzyme. A model for switching endogenous calmodulin between α, β and γ and modulation of ATP binding to α as well as Mg2+/ADP binding to β by calmodulin is presented.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01076754

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