Marie-Claude Garel scite author profile

In order to obtain a transgenic mouse model of sickle cell disease, we have synthesized a novel human beta‐globin gene, beta SAD, designed to increase the polymerization of the transgenic human hemoglobin S (Hb S) in vivo. beta SAD (beta S‐Antilles‐D Punjab) includes the beta 6Val substitution of the beta S chain, as well as two other mutations, Antilles (beta 23Ile) and D Punjab (beta 121Gln) each of which promotes the polymerization of Hb S in human. The beta SAD gene and the human alpha 2‐globin gene, each linked to the beta‐globin locus control region (LCR) were co‐introduced into the mouse germ line. In one of the five transgenic lines obtained, SAD‐1, red blood cells contained 19% human Hb SAD (alpha 2 human 1 beta 2SAD) and mouse‐human hybrids in addition to mouse hemoglobin. Adult SAD‐1 transgenic mice were not anemic but had some abnormal features of erythrocytes and slightly enlarged spleens. Their erythrocytes displayed sickling upon deoxygenation in vitro. SAD‐1 neonates were anemic and many did not survive. In order to generate adult mice with a more severe sickle cell syndrome, crosses between the SAD progeny and homozygous for beta‐thalassemic mice were performed. Hemoglobin SAD was increased to 26% in beta‐thal/SAD‐1 mice which exhibited: (i) abnormal erythrocytes with regard to shape and density; (ii) an enlarged spleen and a high reticulocyte count indicating an increased erythropoiesis; (iii) mortality upon hypoxia; (iv) polymerization of hemolysate similar to that obtained in human homozygous sickle cell disease; and (v) anemia and mortality during development.

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Enhanced Cardiac Function in Transgenic Mice Expressing a Ca ²⁺ -Stimulated Adenylyl Cyclase

Lipskaia¹,

Defer²,

Esposito³

et al. 2000

Circulation Research

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Abstract-The predominant functional adenylyl cyclases normally expressed in cardiac tissue and coupled to ␤-adrenergic receptors are inhibited by micromolar Ca 2ϩ concentration. To modify the overall balance of activities, we have generated transgenic mice expressing the Ca 2ϩ -stimulatable adenylyl cyclase type 8 (AC8) specifically in the heart. AC activity is increased by at least 7-fold in heart membranes from transgenic animals and is stimulated by Ca 2ϩ in the same range of concentration that inhibits the endogenous activity. Moreover, the in vivo basal protein kinase A activity was augmented 4-fold. Overexpression of AC8 in the heart has no detrimental consequences on global cardiac function. Basal heart rate and contractile function, measured by noninvasive echocardiography, were unchanged. In contrast, on release of parasympathetic tone, the intrinsic contractility is heightened and unresponsive to further ␤-adrenergic receptor stimulation. AC8 transgenic mice thus represent an original model to investigate the relative influence of Ca

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β-Chain contact sites in the haemoglobin S polymer

Nagel

Johnson

Bookchin

et al. 1980

Nature

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Resveratrol, a natural dietary phytoalexin, possesses similar properties to hydroxyurea towards erythroid differentiation

et al. 2001

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Summary. Resveratrol, a natural dietary polyphenol, has been postulated to be implicated in the cardioprotective effect of red wine and the low incidence of breast and prostate cancers among vegetarians and Orientals respectively. This compound inhibits ribonucleotide reductase as does hydroxyurea, the first therapeutic agent used in the treatment of sickle cell disease. Using the human erythroleukaemic K562 cell line as an in vitro model, we show here that 50 mmol/l of resveratrol induced a higher haemoglobin production (sevenfold) in K562 cells than 500 mmol/l of hydroxyurea (3´5-fold). This erythroid differentiation was linked to a dose-and time-dependent inhibition of cell proliferation associated with an equivalent increased expression of p21 mRNA, but with a higher increased level of p21 protein (sixfold) for cells treated with resveratrol than for those treated with hydroxyurea (1´5-fold). We also show that 50 mmol/l of resveratrol and 25 mmol/l of hydroxyurea induced variable but similar inhancements of fetal haemoglobin synthesis in cultured erythroid progenitors for the majority of the sickle cell patients studied. These inductions were linked to, but not correlated with, a variable decrease in erythroid burst-forming unit clone number. Taken together, these results show that resveratrol merits further investigations in sickle cell disease therapy.

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