Paula A. Schueler

Cell-growth control by monomeric antigen: the cell surface expression of lysozyme-specific Ig V-domains fused to truncated Epo receptor.

Previously we have shown that the V(H) and V(L) fragments of an anti-hen egg lysozyme (HEL) antibody HyHEL-10 are weakly associated but can be driven together by antigen. By joining these antibody variable domains to the cytoplasmic portion of the murine erythropoietin receptor, we created a chimeric growth factor receptor that could be activated by HEL. After co-transfection with two plasmids encoding the respective chimeric receptors in IL-3 dependent murine pro-B Ba/F3 cells, a portion of the cells survived under antigen dependent stimulation without IL-3. These surviving cells all showed coexpression of the two chimeric receptor chains and demonstrated HEL dose-dependent growth stimulation without IL-3. When another IL-3 dependent cell line 32D was transfected with a variant of such chimeric receptor with a linker peptide (Gly-Ser-Gly) inserted between V(H)/V(L) and EpoR domains, an improved growth response was attained. These observations suggest the utility of heterodimeric Fv chimeric receptors in creating cells that respond to monomeric antigen.

Comparison of methods for erythroblast selection: Application to selecting fetal erythroblasts from maternal blood

BACKGROUND Many methods have been employed to obtain fetal cells from maternal blood for prenatal diagnostics, but there has been little work done that compares the efficacy of different methods. This study presents a comparison of two commonly used methods for selecting erythroblasts with selection directly from whole blood. METHODS Erythroblasts were isolated from maternal blood by either differential lysis or density separation, followed by selection with an antibody to the transferrin receptor. These methods were compared with antibody selection directly from whole blood. The total yield of erythroblasts was determined for each method. RESULTS Red cell lysis is not recommended because the lysis step cannot be well controlled. Density separation followed by antibody selection works well. However, a faster and simpler method, antibody selection directly from whole blood using Immunicon Ferrofluid and magnetic separators, works as well and has the potential to yield even more cells. CONCLUSIONS Considering the need for a simple and quick method for selecting fetal cells from maternal blood, we suggest selection directly from whole blood.

High-density Hapten Labeling and HRP Conjugation of Oligonucleotides for Use as In Situ Hybridization Probes to Detect mRNA Targets in Cells and Tissues

Oligonucleotides that carry a detectable label can be used to probe for mRNA targets in in situ hybridization experiments. Oligonucleotide probes (OPs) have several advantages over cDNA probes and riboprobes. These include the easy synthesis of large quantities of probe, superior penetration of probe into cells and tissues, and the ability to design gene- or allele-specific probes. One significant disadvantage of OPs is poor sensitivity, in part due to the constraints of adding and subsequently detecting multiple labels per oligonucleotide. In this study, we compared OPs labeled with multiple detectable haptens (such as biotin, digoxigenin, or fluorescein) to those directly conjugated with horseradish peroxidase (HRP). We used branching phosphoramidites to add from two to 64 haptens per OP and show that in cells, 16-32 haptens per OP give the best detection sensitivity for mRNA targets. OPs were also made by directly conjugating the same oligonucleotide sequences to HRP. In general, the HRP-conjugated OPs were more sensitive than the multihapten versions of the same sequence. Both probe designs work well both on cells and on formaldehyde-fixed, paraffin-embedded tissues. We also show that a cocktail of OPs further increases sensitivity and that OPs can be designed to detect specific members of a gene family. This work demonstrates that multihapten-labeled and HRP-conjugated OPs are sensitive and specific and can make superior in situ hybridization probes for both research and diagnostic applications.