Stanniocalcin 1 is important for poststroke functionality, but dispensable for ischemic tolerance.

Stanniocalcin 1 (STC1), originally described as an antihypercalcemic hormone in fish, is highly expressed in differentiated mammalian neurons. Mild hypoxic treatment and focal cerebral ischemia induce upregulation of STC1 in the brain. These findings prompted us to investigate whether STC1 contributes to neuroprotection after ischemia and whether STC1 is required for development of ischemic tolerance. We induced 60 minutes of temporary middle cerebral artery occlusion in wild type (WT) and STC1-deficient mice (STC1(-/-)) with or without prior hypoxic preconditioning (HPC, 8% oxygen for 6 hours followed by reoxygenation for 24 hours). Infarct sizes, neurological scores, and Stc1, Stc2, and Il-6 mRNA brain levels were measured 24 hours after ischemia. Additionally, we examined blood-brain barrier (BBB) integrity (Evans Blue fluorescence) under normal conditions and 0 and 24 hours after hypoxia. STC1(-/-) and WT mice developed brain infarcts of similar size. In both strains, HPC triggered ischemic tolerance with similar reduction in infarct size. However, STC1(-/-) mice had worse neurological scores in both scenarios. HPC induced upregulation of STC1 and STC2 in WT mice and of STC2 in STC1(-/-) mice. Ischemic STC1(-/-) mice showed significantly lower Il-6 mRNA expression than ischemic WT mice. Evans Blue fluorescence levels showed no difference in between WT and STC1(-/-) mice under evaluated conditions, thus BBB integrity is preserved despite STC1 deficiency. STC1 was not crucial for the development of ischemic tolerance triggered by HPC or for preserving BBB integrity but may be involved in functional recovery after stroke.

The use of transferrin for enrichment of fetal cells from maternal blood.

Iron loaded transferrin (holotransferrin) was used for enrichment of fetal cells from peripheral blood of pregnant women. Cord blood samples were used to evaluate enrichment efficacy of single and double MACS separations. Blood samples were obtained from 10 pregnant women prior to chorion villus sampling (CVS). Erythroblasts and other mononuclear cells were isolated by triple-density gradient centrifugation. Fetal cells were further enriched by positive magnetic sorting (VarioMACS) using biotinylated transferrin and streptavidin conjugated to magnetic microbeads. The isolated cells were analysed with dual-colour in situ hybridization (FISH) with X- and Y-chromosome specific probes. Male fetuses were correctly identified in three out of four (75%) pregnancies and female fetuses in six out of six (100%) pregnancies. By using transferrin instead of antibodies to the transferrin receptor to label and enrich fetal cells, we believe that unspecific binding attributed to immunological labelling can be minimized. The results indicate that transferrin may be an alternative to antibodies to transferrin receptor for separation of fetal cells from maternal blood.