Production of immunoglobulin Y (IgY) against synthetic peptide analogs of the immunogenic epitopes of the hepatitis B surface antigen

Introduction. Several studies have been conducted on the use of Immunoglobulin Y (IgY) technology in the fields of diagnostics and therapeutics. IgY is the avian counterpart of the mammalian immunoglobulin G (IgG) which is exclusively transferred from the hen to the yolk thus conferring passive immunization to the growing embryo. However, despite the advantages it offers over the use of mammalian immunoglobulin, IgY technology has remained underutilized. Objective. The objective of this study is to produce an IgY with activity against synthetic peptide analogs of known immunogenic epitopes of the Hepatitis B Surface Antigen (HBsAg) - a molecular marker of Hepatitis B infection. Methods. Chickens were immunized with synthetic peptide analogs of previously reported immunogenic epitopes of the S and the pre-S1 regions of the Hepatitis B surface antigen (HBsAg). IgY specific for the synthetic peptides was isolated by delipidation and salt precipitation and was further purified by affinity chromatography. Purity and molecular weights of the whole IgY molecule and its subunits were assessed and determined by SDS-PAGE. Anti-peptide activity and specificity were determined by indirect ELISA. The study was approved by the Ethical Review Board (ERB) and Technical Review Board of the Research Implementation and Development Office (RIDO), University of the Philippines Manila. Results and Conclusion. The IgY that was purified in this study had an approximate molecular weight of 165 kilodaltons. The heavy and light chains are 60 and 28 kilodaltons, respectively. The affinity purified IgY demonstrated anti-peptide antibody activity against synthetic peptide analogs of known immunogenic epitopes of the HBsAg. Specific binding against a battery of synthetic peptides also revealed that the affinity purified IgY specifically binds to the known immunogenic epitope of the HBsAg.

Production of immunoglobulin Y (IgY) against synthetic peptide analogs of the immunogenic epitopes of the hepatitis B surface antigen

INTRODUCTION: Several studies have been conducted on the use of Immunoglobulin Y (IgY) technology in the fields of diagnostics and therapeutics. IgY is the avian counterpart of the mammalian immunoglobulin G (IgG) which is exclusively transferred from the hen to the yolk thus conferring passive immunization to the growing embryo. However, despite the advantages it offers over the use of mammalian immunoglobulin, IgY technology has remained underutilized. OBJECTIVE:The objective of this study is to produce an IgY with activity against synthetic peptide analogs of known immunogenic epitopes of the Hepatitis B Surface Antigen (HBsAg) - a molecular marker of Hepatitis B infection. METHODS: Chickens were immunized with synthetic peptide analogs of previously reported immunogenic epitopes of the S and the pre-S1 regions of the Hepatitis B surface antigen (HBsAg). IgY specific for the synthetic peptides was isolated by delipidation and salt precipitation and was further purified by affinity chromatography. Purity and molecular weights of the whole IgY molecule and its subunits were assessed and determined by SDS-PAGE. Anti-peptide activity and specificity were determined by indirect ELISA. The study was approved by the Ethical Review Board (ERB) and Technical Review Board of the Research Implementation and Development Office (RIDO), University of the Philippines Manila. RESULTS AND CONCLUSION: The IgY that was purified in this study had an approximate molecular weight of 165 kilodaltons. The heavy and light chains are 60 and 28 kilodaltons, respectively. The affinity purified IgY demonstrated anti-peptide antibody activity against synthetic peptide analogs of known immunogenic epitopes of the HBsAg. Specific binding against a battery of synthetic peptides also revealed that the affinity purified IgY specifically binds to the known immunogenic epitope of the HBsAg.

Do tissue levels of autoantigenic aminoacyl-tRNA synthetase predict clinical disease?

The etiologies of most autoimmune diseases are not completely understood. Aminoacyl-tRNA synthetases (AARS) are a family of heterogenous enzymes responsible for protein synthesis and whose secondary functions include a role in autoimmune myositis. A subset of patients with idiopathic inflammatory myopathies demonstrate autoantibody against specific cytoplasmic AARS and the human asparaginyl-tRNA synthetase (AsnRS) has been shown to be a potent chemokine that interacts with CCR3 chemokine receptors. One way in which a chemotactic cytoplasmic enzyme might contribute to tissue inflammation is if it were abundant in a specific injured tissue and thereby released to the microenvironment at times of cellular damage. To test this hypothesis, the relative levels of AsnRS mRNA were studied in six human tissues. A 1.6 kbF RNA probe identified highly variable levels of the corresponding mRNA in Northern blot analysis of human lung, brain, heart, skeletal muscle, pancreas and liver. The highest levels of signal were noted in muscle and pancreas. Polyclonal antibody raised against recombinant human AsnRS identified abundant antigenic material in the pancreas, in particular in islet cells. Thus, the local abundance of an endogenous pro-inflammatory autoantigen may provide one explanation for perpetuation or exacerbation of tissue specific immune-mediated pathologies.