The peptide hormone glucagon-like peptide (GLP)-1 has important actions resulting in glucose lowering along with weight loss in patients with type 2 diabetes. As a peptide hormone, GLP-1 has to be administered by injection. Only a few small-molecule agonists to peptide hormone receptors have been described and none in the B family of the G protein coupled receptors to which the GLP-1 receptor belongs. We have discovered a series of small molecules known as ago-allosteric modulators selective for the human GLP-1 receptor. These compounds act as both allosteric activators of the receptor and independent agonists. Potency of GLP-1 was not changed by the allosteric agonists, but affinity of GLP-1 for the receptor was increased. The most potent compound identified stimulates glucose-dependent insulin release from normal mouse islets but, importantly, not from GLP-1 receptor knockout mice. Also, the compound stimulates insulin release from perfused rat pancreas in a manner additive with GLP-1 itself. These compounds may lead to the identification or design of orally active GLP-1 agonists.ago-allosteric modulator ͉ allosteric ͉ G protein-coupled receptor ͉ screening ͉ cAMP
We describe an enzyme-linked two-site immunoassay for quantitation of intact insulin in human serum and plasma. The method uses two murine monoclonal antibodies that bind to two different epitopes on the insulin molecule. The immunoassay is specific. Human proinsulin is not bound by the antibodies, and the binding of partially processed proinsulin intermediates is believed to be of minor clinical importance. The relative response of human, bovine, and porcine insulin is 1, 1, and 3, respectively. The assay is sensitive (detection limit 5 pmol/L), accurate (101% recovery with 50 pmol/L insulin added to samples, 95% with 100 pmol/L, and 89% with 300 pmol/L), and fast (results within 3 h), and has a high analytical capacity (done in microtiter plates). The working assay range selected is 5-600 pmol/L, corresponding to a clinically useful range. Because of its specificity, this two-site immunoassay gives results that are lower than those obtained by using a competitive radioimmunoassay, both in normal individuals and in non-insulin-dependent diabetics.
The authors describe a homogeneous, sensitive, and rapid bead-based sandwich immunoassay with a broad analytical range for quantifying insulin in human plasma. The assay was performed as a 2-step reaction by incubating the sample with a mixture of biotinylated anti-insulin antibody and beads covalently coated with anti-insulin antibody for 1 h. This was followed by incubation with beads covalently coated with streptavidin for 30 min. After the incubation steps, light generated from a chemiluminescent reaction within the beads was quantitated. The assay was run in 384-well plates with a sample volume of 5 microL. The analytical range extended from 1 to 10,000 pM. Intra-assay precision (% coefficient of variation) ranged from 1.9% to 3.8% for various insulin concentrations. Interassay precision ranged from 4.6% to 7.3%. Assay detection limit was 0.3 pM. There was no interference from moderate hemolysis (with hemoglobin up to 375 mg/dL), bilirubin (up to at least 50 mg/dL), triglyceride (up to at least 1000 mg/dL), biotin (up to at least 7.7 ng/mL), or ascorbic acid (up to 100 mg/dL). However, gross hemolysis did affect the assay. Comparable results were obtained for plasma (ethylenediamine tetra-acetic acid, citrate, and heparin treated) and serum. The correlation with enzyme-linked immunosorbent assay (ELISA) was good (y = 1.25x + 1.19, R(2) = 0.98). This method is convenient and represents an alternative to ELISA.
Low-angle X-ray diffraction patterns from relaxed and non-overlap rigor muscles show a central region of diffuse scattering (disk) which is circularly symmetrical, behaves as solution scattering and comes predominantly from myosin heads. In full-overlap rigor the disk is compressed in the diagonal direction, indicating that the myosin heads have a bent shape and a preferred orientation consistent with a 45 degree angle of attachment to actin.
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