About Us

Laser Focus World is an industry bedrock—first published in 1965 and still going strong. We publish original articles about cutting-edge advances in lasers, optics, photonics, sensors, and quantum technologies, as well as test and measurement, and the shift currently underway to usher in the photonic integrated circuits, optical interconnects, and copackaged electronics and photonics to deliver the speed and efficiency essential for data centers of the future.

Our 80,000 qualified print subscribers—and 130,000 12-month engaged online audience—trust us to dive in and provide original journalism you won’t find elsewhere covering key emerging areas such as laser-driven inertial confinement fusion, lasers in space, integrated photonics, chipscale lasers, LiDAR, metasurfaces, high-energy laser weaponry, photonic crystals, and quantum computing/sensors/communications. We cover the innovations driving these markets.

Laser Focus World is part of Endeavor Business Media, a division of EndeavorB2B.

Laser Focus World Membership

Never miss any articles, videos, podcasts, or webinars by signing up for membership access to Laser Focus World online. You can manage your preferences all in one place—and provide our editorial team with your valued feedback.

Magazine Subscription

Can you subscribe to receive our print issue for free? Yes, you sure can!

Newsletter Subscription

Laser Focus World newsletter subscription is free to qualified professionals:

The Daily Beam

Showcases the newest content from Laser Focus World, including photonics- and optics-based applications, components, research, and trends. (Daily)

Product Watch

The latest in products within the photonics industry. (9x per year)

Bio & Life Sciences Product Watch

The latest in products within the biophotonics industry. (4x per year)

Laser Processing Product Watch

The latest in products within the laser processing industry. (3x per year)

Get Published!

If you’d like to write an article for us, reach out with a short pitch to Sally Cole Johnson: [email protected]. We love to hear from you.

Photonics Hot List

Laser Focus World produces a video newscast that gives a peek into what’s happening in the world of photonics.

Following the Photons: A Photonics Podcast

Following the Photons: A Photonics Podcast dives deep into the fascinating world of photonics. Our weekly episodes feature interviews and discussions with industry and research experts, providing valuable perspectives on the issues, technologies, and trends shaping the photonics community.

Social Media

BlueskyFacebookInstagram LinkedIn • YouTube

Meet the Laser Focus World Team

Editorial

Sales

Editorial Advisory Board

  • Professor Andrea M. Armani, University of Southern California
  • Ruti Ben-Shlomi, Ph.D., LightSolver
  • James Butler, Ph.D., Hamamatsu
  • Natalie Fardian-Melamed, Ph.D., Columbia University
  • Justin Sigley, Ph.D., AmeriCOM
  • Professor Birgit Stiller, Max Planck Institute for the Science of Light, and Leibniz University of Hannover
  • Professor Stephen Sweeney, University of Glasgow
  • Mohan Wang, Ph.D., University of Oxford
  • Professor Xuchen Wang, Harbin Engineering University
  • Professor Stefan Witte, Delft University of Technology
My Watchlist
Indicators
Industrial Laser Index
Markets
Stocks
ETFs
Tools
Markets:
Overview
News
Currencies
International
Treasuries

Wistar Institute Researchers Design Novel Immunotherapy for Brain Cancer

By: via GlobeNewswire

PHILADELPHIA, PA, Dec. 03, 2024 (GLOBE NEWSWIRE) -- PHILADELPHIA — (December 3, 2024) — The Wistar Institute’s David B. Weiner, Ph.D. — Executive Vice President, director of the Vaccine & Immunotherapy Center and W.W. Smith Charitable Trust Distinguished Professor in Cancer Research — and his lab have successfully tested a new immune therapy that, in preclinical lab testing, reliably improves survival and reduces tumor burden in glioblastoma. Their findings were published in the paper, “Novel tri-specific T-cell engager targeting IL-13Rα2 and EGFRvIII provides long-term survival in heterogeneous GBM challenge and promotes antitumor cytotoxicity with patient immune cells,” in the Journal for ImmunoTherapy of Cancer.

“This study utilizes a novel design to build a glioblastoma-targeting ‘trispecific’ antibody deployed against a laboratory model of glioblastoma, which has the potential to be made entirely in patients as a glioblastoma therapy in the future,” said corresponding author, Dr. David Weiner. “We’re hopeful that this will have future applications for preventing tumor escape mechanisms that block response to therapy in a variety of cancers.”

Glioblastoma is the deadliest form of brain cancer, with less than a 5% five-year survival rate. One of the key contributors to glioblastoma’s poor outlook is its natural immunosuppression coupled with its intrinsic diversity — a one-two punch that limits immune successes against controlling glioblastoma in patients.

All cancers — particularly immune-silent, fast-growing cancers like glioblastoma — produce signals called antigens that scientists can use in immune therapies to manually alert the immune system to the presence of incognito cancers. But designing an effective immune therapy for glioblastoma is especially challenging because glioblastoma antigens can vary greatly. That variability means that any effective immune therapy would need to deliver a large amount of information to the immune system.

The team designed a unique trispecific antibody encoded in a DNA-encoded delivery mechanism. Their DNA-encoded trispecifics, named “DTriTEs,” linked cancer-killing T cells through the CD3 protein with two different glioblastoma antigens: the IL-13Rα2 protein and the EGFRvIII protein. This allows the immune system’s T cells to be alerted and activated when they encounter diverse glioblastoma tumors expressing either or both of these antigens. 

In pre-clinical laboratory testing, one DTriTE design stood out for its anticancer potency. Not only did the design produce robust activation of anti-cancer killer T cells, but it also engaged another type of tumor-clearing cell, the Natural Killer (NK) T cells. The DTriTE design was the most potent treatment that provided sustained survival and tumor control in 100% of the glioblastoma challenge models for the duration of the study. In a long-term challenge model meant to evaluate the DTriTE’s ability to sustain anti-cancer efficacy over a longer period of time, 66% of the models treated with the DTriTE showed lasting tumor suppression and survival, which no other comparison treatment achieved.

“Based on this early-stage testing, our data show that, even for a cancer as resistant to treatment as heterogenous glioblastoma, the novel DTriTE design can induce a potent and lasting anticancer response, potentially adding a new tool to our arsenal of approaches,” said the paper’s first author and Weiner lab Ph.D. student, Daniel H. Park. “We’re excited to continue to expand on these designs for potential treatment of glioblastoma and, in the future, for other types of cancer that haven’t responded to immunotherapy due to similar immune issues.”

Co-authors: Daniel H. Park,1,2 Pratik S. Bhojnagarwala,1 Kevin Liaw,1 Devivasha Bordoloi,1 Nicholas J. Tursi,1,2 Shushu Zhao,1 Zev A Binder,2,3 Donald O’Rourke,2,3 and David B. Weiner1,2

1 The Wistar Institute
2 The Perelman School of Medicine at the University of Pennsylvania
3 GBM Translational Center of Excellence at the Abramson Cancer Center

Work supported by: This research was funded by a sponsored research agreement from Inovio Pharmaceuticals. Dr. David B. Weiner is supported by the W.W. Smith Charitable Trust Professorship in Cancer Research, which covered aspects of the work.

Publication information: “Novel tri-specific T-cell engager targeting IL-13Rα2 and EGFRvIII provides long-term survival in heterogeneous GBM challenge and promotes antitumor cytotoxicity with patient immune cells,” from Journal for ImmunoTherapy of Cancer

ABOUT THE WISTAR INSTITUTE

The Wistar Institute is the nation’s first independent nonprofit institution devoted exclusively to foundational biomedical research and training. Since 1972, the Institute has held National Cancer Institute (NCI)-designated Cancer Center status. Through a culture and commitment to biomedical collaboration and innovation, Wistar science leads to breakthrough early-stage discoveries and life science sector start-ups. Wistar scientists are dedicated to solving some of the world’s most challenging problems in the field of cancer and immunology, advancing human health through early-stage discovery and training the next generation of biomedical researchers. wistar.org.


Darien Sutton
The Wistar Institute
215-870-2048
dsutton@wistar.org

More News

View More
Cintas Stock Sends a Clear Buy Signal as Momentum Builds
Via MarketBeat
Topics Government
Tickers CTAS
It's a Good Time to Build a Position in KB Home
Via MarketBeat
Tickers KBH
Micron’s Stock Price Rally Is Not Over: MU $190 Is Coming Soon
Via MarketBeat
Topics Artificial Intelligence
Tickers AMD AMZN MSFT MU NVDA ORCL
Why Traders Are Doubling Down on SoundHound Stock After Big Rally
Via MarketBeat
Topics Artificial Intelligence
Tickers SOUN
Lithium Americas Rally Lifts Other Rare Earth Stocks
Via MarketBeat
Topics Government
Tickers ALB INTC LAC UEC
Stock Quote API & Stock News API supplied by www.cloudquote.io
Quotes delayed at least 20 minutes.
By accessing this page, you agree to the following
Privacy Policy and Terms Of Service.