More news: Research
Agency / Source: NEC Corporation

Check Ads Availability|e-mail Article

Are you the owner of this article?, Turn it PREMIUM with your LOGO instead - and make it 3rd party Ads-Free! within the next hour!

Aichi Cancer Center and NEC Develop an Efficient Method for Identifying Lung Cancer Antigens and Antigen-Specific T Cells - Aichi Cancer Center and NEC Corporation's research group with Gifu University, Toyama University and Kitasato University Medical Center, have developed a method for efficiently identifying the lung cancer antigens and the antigen-specific T cells
Aichi Cancer Center and NEC Develop an Efficient Method for Identifying Lung Cancer Antigens and Antigen-Specific T Cells

 

PRZOOM - /newswire/ - Tokyo, Japan, 2023/08/08 - Aichi Cancer Center and NEC Corporation's research group with Gifu University, Toyama University and Kitasato University Medical Center, have developed a method for efficiently identifying the lung cancer antigens and the antigen-specific T cells. NEC; TSE: 6701

   
 
Your Banner Ad Here instead - Showing along with ALL Articles covering Research Announcements

Replace these Affiliate Programs at ANYTIME! Your banner here within the next hour. Learn How!


 

• Aichi Cancer Center and NEC developed a method for efficiently identifying lung cancer antigens (oncology marks) and antigen-specific T cells by combining single-cell analysis (*1) of Tumor Infiltrating Lymphocytes (TIL) and NEC's AI-based antigen prediction system.
• Aichi Cancer Center and NEC clarified the characteristics of T cells that specifically recognize antigens.
• This study is expected to provide useful information for antigen-specific cancer vaccine therapy and engineered T cell therapy.

Aichi Cancer Center (aichi.jp) and NEC Corporation's research group with Gifu University, Toyama University and Kitasato University Medical Center, have developed a method for efficiently identifying the lung cancer antigens and the antigen-specific T cells that recognize the antigens through both a single-cell analysis of Tumor Infiltrating Lymphocytes (TILs) and NEC's AI-based antigen prediction system that predicts immune response. Our paper describing the results of this study was published on August 6, 2023 in the “Journal for ImmunoTherapy of Cancer," which is the official journal of the Society of Immunotherapy of Cancer (SITC) in the United States.

■ Research Background
Lung cancer is one of the most common cancers and one of the leading causes of cancer death worldwide. There are many types of cancer treatment, such as surgery, chemotherapy, radiation therapy, molecular targeted therapy, immunotherapy, and combinations of these. Recently developed immune checkpoint inhibitors (ICI) have attracted attention as a new therapy, and lung cancer is one of the most sensitive cancers to ICI, but it is effective in only a subset of individuals. Accordingly, new effective immunotherapies are required for lung cancer.

Cytotoxic T lymphocytes (CTLs) in TIL are crucial immune cells that can specifically recognize and eliminate tumor cells. Antigens targeted by CTL include patient-specific neoantigens and common antigens commonly expressed among patients such as cancer-testis antigens (CTA). In general, it is not easy to identify any antigens. If these antigens can be efficiently identified, a combination therapy with ICIs and antigen-specific immunotherapy may enhance the efficacy of treatment.

■ Contents and results of this research
In this study by Aichi Cancer Center and NEC, we performed a single-cell analysis to determine the TILs characteristics of patients with surgically resected non-small cell lung cancer (NSCLC) (n=3) (Figure. 1). Then, we divided the TILs into 10 clusters based on gene expression profile, and identified the exhausted T cell cluster (Tex cluster) characterized by the expression of the genes called exhaustion markers (Figure. 2). We synthesized the TCRs contained in the identified exhausted T cell cluster and induced each of the TCRs into each corresponding T cell, and examined the immune responses to neoantigens predicted by NEC's AI-based antigen prediction system and typical CTAs. It was confirmed that NEC's AI-based antigen prediction system can accurately predict the antigens that cause the immune responses, and we identified four TCRs recognizing KK-LC-1 (one of the CTAs, •2), and five TCRs recognizing the neoantigens (Figure. 3).

In addition, by re-clustering of TCR clones (n=140) that express nine TCRs, it was discovered that even antigen-specific TCR clones have different differentiation stage and functional status among individual TCR clones (Figure 4A), and that there is a bias in differentiation and function of TCRs for each antigen (Figure 4B).

TIL single-cell analysis and AI to predict cancer antigens will facilitate the identification of lung cancer antigens and may lead to the development of personalized cancer vaccine therapies and engineered T cell therapies in NSCLC in the future.

■ Researcher's comment

• Dr. Hirokazu Matsushita, Chief, Division of Translational Oncoimmunology, Aichi Cancer Center
In collaboration with NEC and leading research institutes, the Aichi Cancer Center has developed a procedure for efficiently identifying antigens and antigen-specific T cells using surgical samples from patients with cancer. Looking ahead, we will add a spatial analysis of the cancer microenvironment that contains antigens and antigen-specific T-cells to this system to further clarify the nature of the T-cells infiltrating the cancer. In addition to aiming to develop innovative cancer immunotherapies from these studies, we will apply the knowledge gained to other cancers as well.

• Yoshiko Yamashita, Ph.D. Senior Professional, AI Drug Development Division, NEC Corporation
NEC is conducting clinical trials of personalized cancer vaccine therapies targeting neoantigens. We believe that we have taken a step forward in realizing even more sophisticated personalized cancer vaccine immunotherapies and engineered T cell therapies by using a method to identify antigen-specific T cells constructed in this study and an Attentive Variational Information Bottleneck (AVIB) method (*3) to predict interactions between TCRs and antigens using AI newly developed by NEC. We will continue to accelerate research and development to provide effective treatments to patients.

■ Research support
Aichi Cancer Center Priority Project Research
NEC Corporation
Subsidy Program for Scientific Research by the Japan Society for the Promotion of Science
Japan Respiratory Foundation
Uehara Memorial Life Science Foundation

(*1) Single-cell analysis is an analysis method that is capable of detecting RNA, which is a DNA transfer product for each cell, rather than as a mass of tissue, and understanding the individuality and diversity of individual cells based on the level of gene expression.
(*2) KK-LC-1 (KitaKyushu Lung Canner antigen-1): Cancer and testis antigens that have been reported to be expressed in cancer.
(*3) Attentive Variational Information Bottleneck (AVIB) Method: Variation information bottleneck method developed by NEC Laboratories Europe and NEC Laboratories America to predict interactions between TCRs and antigens using AI.

About NEC Corporation

NEC Corporation (nec.com) has established itself as a leader in the integration of IT and network technologies while promoting the brand statement of “Orchestrating a brighter world.” NEC enables businesses and communities to adapt to rapid changes taking place in both society and the market as it provides for the social values of safety, security, fairness and efficiency to promote a more sustainable world where everyone has the chance to reach their full potential.

NEC is a registered trademark of NEC Corporation. All Rights Reserved. Other product or service marks mentioned herein are the trademarks of their respective owners. ©2023 NEC Corporation.

 
 
Your Banner Ad Here instead - Showing along with ALL Articles covering Research Announcements

Replace these Affiliate Programs at ANYTIME! Your banner here within the next hour. Learn How!


 

Agency / Source: NEC Corporation

 
 

Availability: All Regions (Including Int'l)

 

Traffic Booster: [/] Quick PRZOOM - Press & Newswire Visibility Checker

 

Distribution / Indexing: [+]  / [Company listed above is a registered member of our network. Content made possible by PRZOOM / PRTODAY indexing services]

 
 
# # #
 
 
  Your Banner Ad showing on ALL
Research articles,
CATCH Visitors via Your Competitors Announcements!


Aichi Cancer Center and NEC Develop an Efficient Method for Identifying Lung Cancer Antigens and Antigen-Specific T Cells

Company website links NOT available to basic submissions
It is OK to republish and/or LINK any newswire for any legitimate media purpose as long as you name PRZOOM - Press & Newswire and LINK as the source.
 
  For more information, please visit:
Is this your article? Activate ALL web links by Upgrading to Press Release PREMIUM Plan Now!
Antigen Prediction System | NEC Corporation
Contact: Press Office - NEC.com 
+81 3-3454-1111
 
PRZOOM / PRTODAY - Newswire Today disclaims any content contained in this article. If you need/wish to contact the company who published the current release, you will need to contact them - NOT us. Issuers of articles are solely responsible for the accuracy of their content. Our complete disclaimer appears here.
IMPORTANT INFORMATION: Issuance, publication or distribution of this press release in certain jurisdictions could be subject to restrictions. The recipient of this press release is responsible for using this press release and the information herein in accordance with the applicable rules and regulations in the particular jurisdiction. This press release does not constitute an offer or an offering to acquire or subscribe for any NEC Corporation securities in any jurisdiction including any other companies listed or named in this release.

Research via RSSAdd NewswireToday - PRZOOM Headline News to FeedBurner
Find who RetweetFollow @NewswireTODAY

Are you the owner of this article?, Turn it PREMIUM with your LOGO instead - and make it 3rd party Ads-Free! within the next hour!


Read Latest Press Releases From NEC Corporation / Company Profile


Read Research Most Recent Related Press Releases:

World Congress DSA 2025 - The Frontiers in Intelligent Data and Signal Analysis, Dresden Germany July
Motorola Solutions Announces New Global R&D Centre in Ireland
Naval Group Announces A New Collaboration Between Public and Private Research Studying the Electromagnetism of Ships
BASF Researching CO2-neutral Production of Bio-based Fumarate Using Bacteria Found in Cow Stomachs
SCHOTT Receives Over €1.3 Million to Advance Nuclear Fusion Research
NASA’s Jet Propulsion Laboratory Enhances Public Safety with CentralSquare Technologies’ Pro Suite
BASF to Research on Alternatives to Animal Testing on Behalf of the European Chemicals Agency (ECHA)
NEC Joins Columbia University-led National Science Foundation Engineering Research Center for Smart Streetscapes (CS3)
Tractebel to Conduct Feasibility Study for Iconic Einstein Telescope
Parexel Recognized with Frost & Sullivan’s 2023 North American Customer Value Leadership Award for Impactful Real-world Evidence Solutions

Boost Your Social Network
& Crowdfunding Campaigns


LIFETIME SOCIAL MEDIA WALL
 
NewswireToday Celebrates 10 Years in Business
.



PREMIUM Members


Visit  Limelon Advertising, Co.

Visit  BizJobs.com

Visit  RightITnow, Inc.







 
  ©2005-2024 PRZOOM - Limelon Advertising, Co.
Home | About PRZOOM | Advertise/Pricing | Contact | Investors | Privacy/TOS | Sitemap | FRANCAIS
newswire, PR press releases distribution service magazines engine news alert newsroom press room breaking news public relations articles company news alerts newswiredistribution ezine bizentrepreneur biznewstoday digital business report market search pr firms agencies reports distri-bution today investor relation successful internet entrepreneur newswire distribution prtoday.com freenewswiredistribution asianewstoday bizwiretoday USA pr UK today