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Method and kit for distinguishing between prostate carcinoma and benign prostatic hyperplasia

一种前列腺肥大、前列腺癌的技术,应用在仪器、分析材料、测量装置等方向,能够解决品质偏差、需要血清等问题,达到再现性良好的效果

Inactive Publication Date: 2015-07-22
HIROSAKI UNIVERSITY +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the method of identifying Pca and BPH by affinity chromatography using Sophora japonica agglutinin has attracted attention as a completely different method from the methods proposed so far, since there are terminal sialic acid residues connected to half The amount of PSA of lactose-bonded N-type sugar chains is only 1 to 2% of the total PSA amount, which is extremely small. In order to perform high-precision identification, there is a problem that a large amount (about 10ml) of serum is required as an analysis sample
In addition, since the Sophora japonica agglutinin used is an extract from natural products, there are also problems such as confirming variations in quality between batches.

Method used

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  • Method and kit for distinguishing between prostate carcinoma and benign prostatic hyperplasia
  • Method and kit for distinguishing between prostate carcinoma and benign prostatic hyperplasia
  • Method and kit for distinguishing between prostate carcinoma and benign prostatic hyperplasia

Examples

Experimental program
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Effect test

Embodiment approach

[0031] The method for identifying Pca and BPH of the present invention comprises: contacting a PSA-containing analysis sample with a carrier immobilized with an anti-free PSA antibody, allowing free PSA to bind to the anti-free PSA antibody immobilized on the carrier, and then The free PSA is bound to the carrier of the immobilized anti-free PSA antibody and the monoclonal antibody that specifically recognizes the terminal sialic acid residue and the galactose-bound sugar chain through the α (2,3) bond is contacted, so that the specificity A monoclonal antibody that recognizes a sugar chain in which terminal sialic acid residues are bound to galactose through an α(2,3) bond binds to free PSA bound to an anti-free PSA antibody immobilized on a carrier, and detects terminal sialic acid residues The free PSA amount of the N-type sugar chain bound to galactose through the α(2,3) bond, by comparing the obtained measured amount with the preset cut-off value of Pca and BPH, will be mo...

reference example 1

[0039] [Reference Example 1: Production of HYB4 monoclonal antibody that specifically recognizes sugar chains in which the terminal sialic acid residue is bound to galactose through an α(2,3) bond]

[0040] A monoclonal antibody that specifically recognizes a sugar chain in which a terminal sialic acid residue is bonded to galactose via an α(2,3) bond for use in the recognition of prostate cancer and prostatic hypertrophy according to the present invention was prepared according to the following procedure.

[0041] 【(1) Antigen preparation】

[0042] IV as glycolipid 3 NeuAcnLc 4 Cer (NeuAcα2-3Galβ1-4GlcNAcβ1-3Galβ1-4Glcβ1-1'Cer) was used as an immunogen.

[0043] 【(2) Preparation of hybridoma】

[0044] Make IV 3 NeuAcnLc 4 228 μg of Cer (NeuAcα2-3Galβ1-4GlcNAcβ1-3Galβ1-4Glcβ1-1’Cer) was dissolved in 114 μl of EtOH, after ultrasonic treatment, 1820 μl of PBS was added and heated to 37°C. Thereafter, 568 μl of a solution in which acid-treated Salmonella minnesota (Salmonel...

Embodiment 1

[0047] [Example 1: Recognition of Pca and BPH using HYB4 monoclonal antibody (Part 1)]

[0048] Carry out in the following order.

[0049] [(1) Immobilization of anti-free PSA antibody on carrier]

[0050] Magplex microspheres (Luminex), which are magnetic beads, were used as a carrier, and an anti-free PSA antibody was immobilized on the surface according to the manual of the XMAP antibody coupling kit. Specifically, to a 1.5ml tube add 6.25 x 10 6 Magplex microspheres per 500 μl were placed on a magnetic separator for 2 minutes. After magnetic bead precipitation, the supernatant was aspirated and removed. 500 μl of activation buffer was added to the tube, mixed for 10 seconds, and left to stand on a magnetic separator for 2 minutes. After magnetic bead precipitation, the supernatant was aspirated and removed. Another 400 [mu]l activation buffer was added to the tube and mixed for 10 seconds. Next, 50 μl of sulfo-NHS and 50 μl of EDC solution were added, mixed for 10 se...

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Abstract

The present invention addresses the problem of providing a method for distinguishing between prostate carcinoma and benign prostatic hyperplasia with high sensitivity and good reproducibility using an analyte sample in a small amount. The method for distinguishing between prostate carcinoma and benign prostatic hyperplasia according to the present invention, which is a solution for the problem, is as follows: an analyte sample containing a prostate-specific antigen (PSA) is brought into contact with a carrier having an anti-free PSA antibody immobilized thereon, thereby causing the binding of a free PSA to the anti-free PSA antibody immobilized on the carrier; the carrier in which the free PSA has been bound to the immobilized anti-free PSA antibody is brought into contact with a monoclonal antibody capable of specifically recognizing a sugar chain in which a terminal sialic acid residue is bound to galactose via an α(2,3) bond, thereby causing the binding of the monoclonal antibody capable of specifically recognizing the sugar chain in which the terminal sialic acid residue has been bound to galactose via an α(2,3) bond to the free PSA that has been bound to the anti-free PSA antibody immobilized on the carrier; the amount of the free PSA that has an N-type sugar chain in which the terminal sialic acid residue has been bound to galactose via an α(2,3) bond is measured; and subsequently the amount measured in the proceeding step is compared with a preset cut-off value for prostate carcinoma and benign prostatic hyperplasia. When the measured amount is larger than the cut-off value, it is determined that prostate carcinoma is developed or the probability of prostate carcinoma is high. When the measured amount is smaller than the cut-off value, it is determined that benign prostatic hyperplasia is developed or the probability of benign prostatic hyperplasia is high.

Description

【Technical field】 [0001] The present invention relates to methods and kits for identifying prostate cancer and prostatic hypertrophy. 【Background technique】 [0002] It is well known that prostate cancer (prostate carcinoma: hereinafter referred to as "Pca") is the main cause of death in men, and prostate-specific antigen (prostate-specific antigen: hereinafter referred to as "PSA") is considered to be the most important tumor marker for Pca (non- Patent Document 1). PSA is a glycoprotein of about 34 kDa, and sugar chains account for about 8% thereof. The usefulness of the serum PSA test for the early diagnosis of Pca has been documented in various documents, but there is a debate among men suffering from Pca and men suffering from benign prostate hyperplasia (hereinafter referred to as "BPH"). A gray zone is an area that cannot be said to be either Pca or BPH (Non-Patent Document 2). Therefore, attempts to accurately distinguish the two types of lesions have been perform...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/574G01N33/553
CPCG01N33/57484G01N33/57434G01N2333/96433G01N2400/02G01N2400/12
Inventor 大山力米山徹飞泽悠葵畠山真吾铃木隆左一八山口真帆
Owner HIROSAKI UNIVERSITY
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