Human muscle precursor cell regeneration in the mouse host is enhanced by growth factors.

The aim of this study was to optimize human muscle formation in vivo from implanted human muscle precursor cells. We transplanted donor muscle precursor cells (MPCs) prepared from postnatal or fetal human muscle into immunodeficient host mice and showed that irradiation of host muscle significantly enhanced muscle formation by donor cells. The amount of donor muscle formed in cryodamaged host muscle was increased by exposure of donor cells to growth factors before their implantation into injured host muscle. Insulin-like growth factor type I (IGF-I) significantly increased the amount of muscle formed by postnatal human muscle cells, but not by fetal human MPCs. However, treatment of fetal muscle cells with IGF-I, in combination with basic fibroblast growth factor and plasmin, significantly increased the amount of donor muscle formed. In vivo, human MPCs formed mosaic human-mouse muscle fibers, in which each human myonucleus was associated with a zone of human sarcolemmal protein spectrin.

The molecular basis for genetic variation in fetal haemoglobin level in sickle cell anaemia

Raised fetal haemoglobin levels ameliorate the clinical severity of sickle cell anaemia. This provides a rationale for therapy and signals the need to elucidate the molecular basis for the variability of HbF level in sickle cell anaemia. Polymorphism within regulatory sites of the globin locus alter the affinity with which transcription factors bind their cogante recognition sites thereby modulating gene expression. A novel chromosomal haplotype utilising polymorphic variation within two enhancers hypersensitive site 2 (HS2) of the locus control region and the pre g y framework and the silencer protein BP1 binding site that spans a 53 kb interval of the globin locus was determined in 205 patients with sickle cell anaemia from the UK and Jamaica. Multiplexed polymerase chain reactions developed to facilitate rapid analysis of polymorphisms within each site allowed individual haplotype construction in a single lane of a single strand conformation polymorphism (SSCP) electrophoresis gel. SSCP banding patterns for the combined polymorphic sites were confirmed as unique chromosomal haplotypes by DNA sequence anaylsis. Three hundred and ten chromosomes with sequence TA7 N 12 TA8, GA and AT(AT)8T4 were designated class 1. Twenty-five class II with sequence TA8 N10 TA11, GG, AC(AT)6T9; 17 class III with TA9 N10 TA10, AG, AC(AT)8T4; 7 class IV with TA10 N10 TA12, AG, AC(AT)9T5 and 13 class Ia haplotype with sequence TA9 N10 TA10, GA, AT(AT)8T4 were identified. The proportion of class I chromosomes in both groups (159/210 UK; 151/200 Jamaican) is identical, however, significantly more chromosomes with sub-classes I and II are present among the Jamaican sample. There is incomplete association between the functional haplotype classes defined and conventional haplotypes based on restriction fragment length polymorphisms. The level of Hbf is significantly higher in patients with functional haplotype classes III and IV compared to those with classes I and II. Both high HbF haplotypes share a high affinity binding motif for the transcription factor GATA-1. This novel approach allows the combined effets of genetic variation in regulatory sequences within the globin locus on HbF level to be defined. (AU)