cDNA sequence analysis of monoclonal antibodies against the human placental acidic isoferritin

Comparison of two functional kappa light-chain transcripts amplified from a hybridoma

Three heavy-chain and three kappa (κ)-chain transcripts were amplified from hybridoma cells secreting a monoclonal antibody (mAb) against transferrin receptor. Sequence analysis via IMGT/V-QUEST yielded the functional/aberrant prediction. Two functional κ-chain transcripts, Vκ2 and Vκ3, and one functional VH1 were revealed. Comprehensive bioinformatics analyses including sequence alignment, phylogenetic tree, somatic hypermutation prediction, and three-dimensional-molecular structure modeling were used to predict the origin of the two κ-chain transcripts. The results of bioinformatics analysis suggest that Vκ3 is derived from the myeloma partner of the hybridoma; Vκ2 is derived from B-cell. Functional transcripts VH1 and Vκ2 and Vκ3 were then used to construct two chimeric antibodies chi-C2 (Vκ2-VH1) and chi-C3 (Vκ3-VH1), respectively. Antigen-binding experiments showed that only chi-C2 remained the same affinity as its parental mAb. Possible explanations for the coexistence of two functional κ-chain transcripts and the different affinity of the two chimeric antibodies are discussed.

Effects of placental isoferritin on the mouse embryo development in vitro

To investigate the effect of placental isoferritin (PLF) on mouse embryo development in vitro, mice 2-cell embryos were co-cultured with human first trimester decidual cells at different concentrations of PLF in vitro. The following changes of the above system were observed under an invert microscope and the number of embryos were recorded and the embryos were classified. The results showed there was no significant difference in the percentage of embryos development to 4-cell, 8-cell and morula (P>0.05). PLF at the doses of 10 and 100 U/mL significantly enhanced more embryos development to the blastocyst and hatching blastocyst (P<0.05). PLF at the dose of 1000 U/mL depressed more embryos development from 2-cell to hatching blastocyst, meanwhile such phenomena as cell degeneration and irregular cleavage were observed in part of embryos, but there was no significant difference in statistics (P>0.05). It was concluded that PLF at the concentration of 10-100 U/mL had no significant effects on the early development of mice embryos, however, PLF could promote the growth, differentiation, and hatching of preimplantation blastocysts.

A human single-chain Fv intrabody blocks aberrant cellular effects of overexpressed alpha-synuclein

alpha-Synuclein (alpha-syn) has been identified as the major component of Lewy bodies that characterize neurodegenerative synucleinopathies, including Parkinson's disease. Overexpression of alpha-syn, and prefibrillar alpha-syn oligomers, has been implicated in these pathologies; therefore, prevention of prefibril accumulation, and inhibition of other aberrant effects of overexpressed alpha-syn, could provide novel treatments. Here, we have selected a human single-chan Fv (scFv) antibody, D10, that binds human monomeric wild-type alpha-syn. We demonstrate, by retargeting assays and coimmunoprecipitation, that the D10 scFv is a specific and efficient intracellular antibody (intrabody). By transfecting the D10 scFv gene into an HEK 293 cell line that overexpresses wild-type alpha-syn, we show that the D10 intrabody stabilizes detergent-soluble monomeric alpha-syn and inhibits the formation of detergent-insoluble high-molecular-weight alpha-syn species. In addition, the D10 intrabody ameliorates the decreased cell adhesion that characterizes the alpha-syn-overexpressing cells. Given the important role of alpha-syn pathology, and the facility with which intrabodies can be further engineered in vitro, anti-alpha-syn intrabodies may represent novel molecular therapeutics for synucleinopathies, with implications for other neurodegenerative disorders caused by misfolded accumulated proteins.

Construction and analysis of three-dimensional graphic model of single-chain Fv derived from an anti-human placental acidic isoferritin monoclonal antibody by computer

A three-dimensional (3D) graphic model of a single-chain Fv (scFv) which was derived from an anti-human placental acidic isoferritin (PAF) monoclonal antibody (MAb) was constructed by a homologous protein-predicting computer algorithm on Silicon graphic computer station. The structure, surface static electricity and hydrophobicity of scFv were investigated. Computer graphic modelling indicated that all regions of scFv including the inker, variable regions of the heavy (VH) and light (VL) chains were suitable. The VH region and the VL region were involved in composing the "hydrophobic pocket". The linker was drifted away VH and VL regions. The complementarity determining regions (CDRs) of VH and VL regions surrounded the "hydrophobic pocket". This study provides a theory basis for improving antibody affinity, investigating antibody structure and analyzing the functions of VH and VL regions in antibody activity.