Gene/Protein
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Target Concepts:
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Query: UMLS:C0038002 (
splenomegaly
)
9,873
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Towards a transgenic mouse model of sickle cell disease: hemoglobin SAD. 191 88
Erythrocyte sickling on deoxygenation in vitro occurs in transgenic
SAD
mice, hemizygous for a modified human sickle hemoglobin, HbSAD [alpha 2 beta 2S(beta 6val)Antilles (beta 23 lle)D- Punjab (beta 121Gln)] (
SAD
-1, 19% HbSAD; beta-thal/
SAD
-1, 26% HbSAD). The present study examines the cellular defects in vivo and pathologic changes observed in
SAD
-1 mice at atmospheric oxygenation as well as the effect of acute hypoxia. The transgenic mice showed generalized congestion and microvascular occlusions, occasionally with thrombosis and infarctions of lung, kidneys, penis, and myocardium. The most prevalent chronic organ lesions were congestive
splenomegaly
(83% of animals) and renal glomerulopathy, which affected 75% of animals by 10 months of age. Further,
SAD
mice have a mean lifespan that was reduced by 40% when compared with nontransgenic littermates. Premature death of
SAD
mice was associated with acute vasoocclusive events or severe renal disease.
SAD
mice developed lethal vasoocclusive processes when exposed to reduced pO2 conditions, whereas control mice survived normally. The sensitivity to hypoxia appears to depend on the cellular level of HbSAD, because death occurred at pO2 of 42 mmHg for
SAD
mice and 49 mmHg for beta-thal/
SAD
. Administration of an antisickling agent that increases oxygen affinity (BW12C79) protected
SAD
and beta-thal/
SAD
mice from the lethal hypoxic stress. In conclusion, the transgenic
SAD
and beta-thal/
SAD
mice developed a pathophysiology that strongly resembles human sickle cell disease. Moreover, this animal model allows studies on the effect of antisickling agents.
...
PMID:Sickle cell disease of transgenic SAD mice. 794 91
Sickle cell disease (SCD) is caused by a single point mutation in the human betaA globin gene that results in the formation of an abnormal hemoglobin [HbS (alpha2betaS2)]. We designed a betaA globin gene variant that prevents HbS polymerization and introduced it into a lentiviral vector we optimized for transfer to hematopoietic stem cells and gene expression in the adult red blood cell lineage. Long-term expression (up to 10 months) was achieved, without preselection, in all transplanted mice with erythroid-specific accumulation of the antisickling protein in up to 52% of total hemoglobin and 99% of circulating red blood cells. In two mouse SCD models, Berkeley and
SAD
, inhibition of red blood cell dehydration and sickling was achieved with correction of hematological parameters,
splenomegaly
, and prevention of the characteristic urine concentration defect.
...
PMID:Correction of sickle cell disease in transgenic mouse models by gene therapy. 1174 72
