Home  About us  Contact
 

Hinge Peptide (hinge + peptide)

Distribution by Scientific Domains
Medical Sciences75%

Selected Abstracts

The hinge region fragment of immunoglobulin G improves immunogenicity of recombinant gonadotrophin-releasing hormone conjugated to the T-helper epitope in designing peptide vaccines

IMMUNOLOGY, Issue 1pt2 2009
Jinshu Xu
Summary In our previous study, the hinge fragment (225,232/225,,232,) of human immunoglobulin G1 (IgG1) was used as a space peptide linker for synthesizing the GnRH3,hinge,MVP chimeric peptide, whereby three repeated gonadotrophin-releasing hormone (GnRH) units and a T-cell epitope from measles virus fusion protein (MVP) were amide-bond-linked at the N and C terminus, respectively, to the hinge peptide for producing anti-GnRH antibody responses. To investigate whether or not the hinge region fragment can improve the immunogenicity of GnRH, we further synthesized and purified GnRH3,hinge,MVP, GnRH3,hinge and GnRH3,MVP using recombinant DNA technology. Under high pH conditions, GnRH3,hinge,MVP was capable of forming double-chain structures. Immunization of male mice with the immunogens of GnRH3,hinge,MVP resulted in the generation of high-titre antibodies specific for GnRH. The synthetic GnRH3,hinge and GnRH3,MVP induced a lower titre of anti-GnRH antibody than GnRH3,hinge,MVP. This was followed by a decrease in serum testosterone levels, which resulted in a low level of expression of the relaxin-like factor gene in the testis. Our data suggest that peptide and T-cell epitopes oriented at the N-terminus or C-terminus of hinge peptides simplify the antigenic peptide conjugates and may be considered as potential synthetic immunogens. [source]

Detection of gender difference and epitope specificity of IgG antibody activity against IgA 1 hinge portion in IgA nephropathy patients using synthetic hinge peptide and glycopeptide probes

NEPHROLOGY, Issue 2002
I NAKAMURA
[source]

The hinge region fragment of immunoglobulin G improves immunogenicity of recombinant gonadotrophin-releasing hormone conjugated to the T-helper epitope in designing peptide vaccines

IMMUNOLOGY, Issue 1pt2 2009
Jinshu Xu
Summary In our previous study, the hinge fragment (225,232/225,,232,) of human immunoglobulin G1 (IgG1) was used as a space peptide linker for synthesizing the GnRH3,hinge,MVP chimeric peptide, whereby three repeated gonadotrophin-releasing hormone (GnRH) units and a T-cell epitope from measles virus fusion protein (MVP) were amide-bond-linked at the N and C terminus, respectively, to the hinge peptide for producing anti-GnRH antibody responses. To investigate whether or not the hinge region fragment can improve the immunogenicity of GnRH, we further synthesized and purified GnRH3,hinge,MVP, GnRH3,hinge and GnRH3,MVP using recombinant DNA technology. Under high pH conditions, GnRH3,hinge,MVP was capable of forming double-chain structures. Immunization of male mice with the immunogens of GnRH3,hinge,MVP resulted in the generation of high-titre antibodies specific for GnRH. The synthetic GnRH3,hinge and GnRH3,MVP induced a lower titre of anti-GnRH antibody than GnRH3,hinge,MVP. This was followed by a decrease in serum testosterone levels, which resulted in a low level of expression of the relaxin-like factor gene in the testis. Our data suggest that peptide and T-cell epitopes oriented at the N-terminus or C-terminus of hinge peptides simplify the antigenic peptide conjugates and may be considered as potential synthetic immunogens. [source]

Structural features for the mechanism of antitumor action of a dimeric human pancreatic ribonuclease variant

PROTEIN SCIENCE, Issue 1 2009
Antonello Merlino
Abstract A specialized class of RNases shows a high cytotoxicity toward tumor cell lines, which is critically dependent on their ability to reach the cytosol and to evade the action of the ribonuclease inhibitor (RI). The cytotoxicity and antitumor activity of bovine seminal ribonuclease (BSRNase), which exists in the native state as an equilibrium mixture of a swapped and an unswapped dimer, are peculiar properties of the swapped form. A dimeric variant (HHP2-RNase) of human pancreatic RNase, in which the enzyme has been engineered to reproduce the sequence of BSRNase helix-II (Gln28,Leu, Arg31,Cys, Arg32,Cys, and Asn34,Lys) and to eliminate a negative charge on the surface (Glu111,Gly), is also extremely cytotoxic. Surprisingly, this activity is associated also to the unswapped form of the protein. The crystal structure reveals that on this molecule the hinge regions, which are highly disordered in the unswapped form of BSRNase, adopt a very well-defined conformation in both subunits. The results suggest that the two hinge peptides and the two Leu28 side chains may provide an anchorage to a transient noncovalent dimer, which maintains Cys31 and Cys32 of the two subunits in proximity, thus stabilizing a quaternary structure, similar to that found for the noncovalent swapped dimer of BSRNase, that allows the molecule to escape RI and/or to enhance the formation of the interchain disulfides. [source]