Cell Cycle Kinetic Analysis of Colorectal Neoplasms Using a New Automated Immunohistochemistry-Based Cell Cycle Detection Method

Cell Cycle Kinetic Analysis of Colorectal Neoplasms Using a New Automated Immunohistochemistry-Based Cell Cycle Detection Method

We have recently developed a new method called the immunohistochemistry-based cell cycle detection (iCCD), which allows the determination of cell cycle phases on a cell-by-cell basis. This automated procedure can be performed on tissue sections and involves triple immunostaining for geminin, cdt1, a...

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Veröffentlicht in:Medicine (Baltimore) 2015-01, Vol.94 (4), p.e501-e501
Hauptverfasser: Tomono, Ayako, Itoh, Tomoo, Yanagita, Emmy, Imagawa, Naoko, Kakeji, Yoshihiro
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Sprache:eng
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Adenocarcinoma - metabolism
Adenocarcinoma - pathology
Adenocarcinoma - therapy
Adenoma - metabolism
Adenoma - pathology
Adenoma - therapy
Cell Cycle
Cell Cycle Proteins - metabolism
Colorectal Neoplasms - metabolism
Colorectal Neoplasms - pathology
Colorectal Neoplasms - therapy
Female
Geminin - metabolism
Histones - metabolism
Humans
Immunohistochemistry - methods
Intestinal Mucosa - pathology
Male
Neoadjuvant Therapy
Observational Study
Staining and Labeling
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creator Tomono, Ayako
Itoh, Tomoo
Yanagita, Emmy
Imagawa, Naoko
Kakeji, Yoshihiro
description We have recently developed a new method called the immunohistochemistry-based cell cycle detection (iCCD), which allows the determination of cell cycle phases on a cell-by-cell basis. This automated procedure can be performed on tissue sections and involves triple immunostaining for geminin, cdt1, and γ H2A.X, which are nuclear proteins expressed sequentially, with a few overlaps, during the cell cycle. In the current study, we applied this technique to resected specimens of colorectal neoplasm to determine the usefulness of iCCD for the pathological examination of colorectal cancers. We examined 141 cases of colorectal cancers. Normal mucosa and adenomas were analyzed as controls. In nonneoplastic mucosa, we observed a pattern of distribution of the cells positive for these cell cycle markers. Adenomas showed a slight distortion in this pattern, the geminin-positive cells, indicative of S/G2/M phase, were localized in the upper one-third region of the crypts. In neoplastic mucosa, the marker expression pattern was disorganized. Compared with normal mucosa, colorectal neoplasms showed an increased proportion of geminin-positive cells and decreased percentages of cdt1-positive cells (G1 phase). However, we did not find significant difference in the expression pattern between adenomas and carcinomas. Cellular proportions were correlated with clinicopathological parameters such as microscopic vascular invasion and pT stages. In cases of preoperative adjuvant therapy, the proportion of geminin-positive cells decreased, whereas that of γ H2A.X-positive cells (indicative of apoptosis/degeneration) increased significantly. We believe that this novel method can be applied to clinical samples to evaluate cell cycle kinetics and the effects of preoperative adjuvant therapy in colorectal cancers.
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This automated procedure can be performed on tissue sections and involves triple immunostaining for geminin, cdt1, and γ H2A.X, which are nuclear proteins expressed sequentially, with a few overlaps, during the cell cycle. In the current study, we applied this technique to resected specimens of colorectal neoplasm to determine the usefulness of iCCD for the pathological examination of colorectal cancers. We examined 141 cases of colorectal cancers. Normal mucosa and adenomas were analyzed as controls. In nonneoplastic mucosa, we observed a pattern of distribution of the cells positive for these cell cycle markers. Adenomas showed a slight distortion in this pattern, the geminin-positive cells, indicative of S/G2/M phase, were localized in the upper one-third region of the crypts. In neoplastic mucosa, the marker expression pattern was disorganized. Compared with normal mucosa, colorectal neoplasms showed an increased proportion of geminin-positive cells and decreased percentages of cdt1-positive cells (G1 phase). However, we did not find significant difference in the expression pattern between adenomas and carcinomas. Cellular proportions were correlated with clinicopathological parameters such as microscopic vascular invasion and pT stages. In cases of preoperative adjuvant therapy, the proportion of geminin-positive cells decreased, whereas that of γ H2A.X-positive cells (indicative of apoptosis/degeneration) increased significantly. 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This automated procedure can be performed on tissue sections and involves triple immunostaining for geminin, cdt1, and γ H2A.X, which are nuclear proteins expressed sequentially, with a few overlaps, during the cell cycle. In the current study, we applied this technique to resected specimens of colorectal neoplasm to determine the usefulness of iCCD for the pathological examination of colorectal cancers. We examined 141 cases of colorectal cancers. Normal mucosa and adenomas were analyzed as controls. In nonneoplastic mucosa, we observed a pattern of distribution of the cells positive for these cell cycle markers. Adenomas showed a slight distortion in this pattern, the geminin-positive cells, indicative of S/G2/M phase, were localized in the upper one-third region of the crypts. In neoplastic mucosa, the marker expression pattern was disorganized. Compared with normal mucosa, colorectal neoplasms showed an increased proportion of geminin-positive cells and decreased percentages of cdt1-positive cells (G1 phase). However, we did not find significant difference in the expression pattern between adenomas and carcinomas. Cellular proportions were correlated with clinicopathological parameters such as microscopic vascular invasion and pT stages. In cases of preoperative adjuvant therapy, the proportion of geminin-positive cells decreased, whereas that of γ H2A.X-positive cells (indicative of apoptosis/degeneration) increased significantly. We believe that this novel method can be applied to clinical samples to evaluate cell cycle kinetics and the effects of preoperative adjuvant therapy in colorectal cancers.</description><subject>Adenocarcinoma - metabolism</subject><subject>Adenocarcinoma - pathology</subject><subject>Adenocarcinoma - therapy</subject><subject>Adenoma - metabolism</subject><subject>Adenoma - pathology</subject><subject>Adenoma - therapy</subject><subject>Cell Cycle</subject><subject>Cell Cycle Proteins - metabolism</subject><subject>Colorectal Neoplasms - metabolism</subject><subject>Colorectal Neoplasms - pathology</subject><subject>Colorectal Neoplasms - therapy</subject><subject>Female</subject><subject>Geminin - metabolism</subject><subject>Histones - metabolism</subject><subject>Humans</subject><subject>Immunohistochemistry - methods</subject><subject>Intestinal Mucosa - pathology</subject><subject>Male</subject><subject>Neoadjuvant Therapy</subject><subject>Observational Study</subject><subject>Staining and Labeling</subject><issn>0025-7974</issn><issn>1536-5964</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpdUU1v1DAQtRCIbgu_AAn5yCXFn7F8QVqytFR0y4WeLa8zaQJOvNgOq73x0-uypVqYy0gz7715o4fQG0rOKdHq_Xp1To5LEvoMLajkdSV1LZ6jBSFMVkorcYJOU_pOCOWKiZfohMmaC0b4Av1uwHvc7J0H_GWYIA8OLyfr92lIOHS4CT5EcNl6fANh620aE75Nw3SHbZns8HLOYbQZWnw1jvMU-iHl4HoYS4_76qNNZXV0ZAW5yA1hwmvIfWhfoRed9QleP_YzdHvx6Vvzubr-ennVLK8rJ4vRquPcth0HstFMMOuc1jWVFIgSWjG14UxKu-HOEqE4dG3bUktVC7amtYPCPkMfDrrbeTNC62DK0XqzjcNo494EO5h_N9PQm7vwy4iaMK1oEXj3KBDDzxlSNuVFVx6zE4Q5GVpLJgTnmhUoP0BdDClF6J7OUGIesjPrlfk_u8J6e-zwifM3rAIQB8Au-Awx_fDzDqLpwfrc_9GTSrOKEVrkiCBVmRRD96Oipos</recordid><startdate>20150101</startdate><enddate>20150101</enddate><creator>Tomono, Ayako</creator><creator>Itoh, Tomoo</creator><creator>Yanagita, Emmy</creator><creator>Imagawa, Naoko</creator><creator>Kakeji, Yoshihiro</creator><general>Wolters Kluwer Health, Inc. All rights reserved</general><general>Wolters Kluwer Health</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>20150101</creationdate><title>Cell Cycle Kinetic Analysis of Colorectal Neoplasms Using a New Automated Immunohistochemistry-Based Cell Cycle Detection Method</title><author>Tomono, Ayako ; Itoh, Tomoo ; Yanagita, Emmy ; Imagawa, Naoko ; Kakeji, Yoshihiro</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c5203-f33adf3e0b9242acc996151e0749727b3255ab3ca0473efddd1a17dea616cef33</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2015</creationdate><topic>Adenocarcinoma - metabolism</topic><topic>Adenocarcinoma - pathology</topic><topic>Adenocarcinoma - therapy</topic><topic>Adenoma - metabolism</topic><topic>Adenoma - pathology</topic><topic>Adenoma - therapy</topic><topic>Cell Cycle</topic><topic>Cell Cycle Proteins - metabolism</topic><topic>Colorectal Neoplasms - metabolism</topic><topic>Colorectal Neoplasms - pathology</topic><topic>Colorectal Neoplasms - therapy</topic><topic>Female</topic><topic>Geminin - metabolism</topic><topic>Histones - metabolism</topic><topic>Humans</topic><topic>Immunohistochemistry - methods</topic><topic>Intestinal Mucosa - pathology</topic><topic>Male</topic><topic>Neoadjuvant Therapy</topic><topic>Observational Study</topic><topic>Staining and Labeling</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Tomono, Ayako</creatorcontrib><creatorcontrib>Itoh, Tomoo</creatorcontrib><creatorcontrib>Yanagita, Emmy</creatorcontrib><creatorcontrib>Imagawa, Naoko</creatorcontrib><creatorcontrib>Kakeji, Yoshihiro</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Medicine (Baltimore)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Tomono, Ayako</au><au>Itoh, Tomoo</au><au>Yanagita, Emmy</au><au>Imagawa, Naoko</au><au>Kakeji, Yoshihiro</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Cell Cycle Kinetic Analysis of Colorectal Neoplasms Using a New Automated Immunohistochemistry-Based Cell Cycle Detection Method</atitle><jtitle>Medicine (Baltimore)</jtitle><addtitle>Medicine (Baltimore)</addtitle><date>2015-01-01</date><risdate>2015</risdate><volume>94</volume><issue>4</issue><spage>e501</spage><epage>e501</epage><pages>e501-e501</pages><issn>0025-7974</issn><eissn>1536-5964</eissn><abstract>We have recently developed a new method called the immunohistochemistry-based cell cycle detection (iCCD), which allows the determination of cell cycle phases on a cell-by-cell basis. This automated procedure can be performed on tissue sections and involves triple immunostaining for geminin, cdt1, and γ H2A.X, which are nuclear proteins expressed sequentially, with a few overlaps, during the cell cycle. In the current study, we applied this technique to resected specimens of colorectal neoplasm to determine the usefulness of iCCD for the pathological examination of colorectal cancers. We examined 141 cases of colorectal cancers. Normal mucosa and adenomas were analyzed as controls. In nonneoplastic mucosa, we observed a pattern of distribution of the cells positive for these cell cycle markers. Adenomas showed a slight distortion in this pattern, the geminin-positive cells, indicative of S/G2/M phase, were localized in the upper one-third region of the crypts. In neoplastic mucosa, the marker expression pattern was disorganized. Compared with normal mucosa, colorectal neoplasms showed an increased proportion of geminin-positive cells and decreased percentages of cdt1-positive cells (G1 phase). However, we did not find significant difference in the expression pattern between adenomas and carcinomas. Cellular proportions were correlated with clinicopathological parameters such as microscopic vascular invasion and pT stages. In cases of preoperative adjuvant therapy, the proportion of geminin-positive cells decreased, whereas that of γ H2A.X-positive cells (indicative of apoptosis/degeneration) increased significantly. We believe that this novel method can be applied to clinical samples to evaluate cell cycle kinetics and the effects of preoperative adjuvant therapy in colorectal cancers.</abstract><cop>United States</cop><pub>Wolters Kluwer Health, Inc. All rights reserved</pub><pmid>25634203</pmid><doi>10.1097/MD.0000000000000501</doi><oa>free_for_read</oa></addata></record>
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subjects Adenocarcinoma - metabolism
Adenocarcinoma - pathology
Adenocarcinoma - therapy
Adenoma - metabolism
Adenoma - pathology
Adenoma - therapy
Cell Cycle
Cell Cycle Proteins - metabolism
Colorectal Neoplasms - metabolism
Colorectal Neoplasms - pathology
Colorectal Neoplasms - therapy
Female
Geminin - metabolism
Histones - metabolism
Humans
Immunohistochemistry - methods
Intestinal Mucosa - pathology
Male
Neoadjuvant Therapy
Observational Study
Staining and Labeling
title Cell Cycle Kinetic Analysis of Colorectal Neoplasms Using a New Automated Immunohistochemistry-Based Cell Cycle Detection Method
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