Research & Development World

  • R&D World Home
  • Topics
    • Aerospace
    • Automotive
    • Biotech
    • Careers
    • Chemistry
    • Environment
    • Energy
    • Life Science
    • Material Science
    • R&D Management
    • Physics
  • Technology
    • 3D Printing
    • A.I./Robotics
    • Software
    • Battery Technology
    • Controlled Environments
      • Cleanrooms
      • Graphene
      • Lasers
      • Regulations/Standards
      • Sensors
    • Imaging
    • Nanotechnology
    • Scientific Computing
      • Big Data
      • HPC/Supercomputing
      • Informatics
      • Security
    • Semiconductors
  • R&D Market Pulse
  • R&D 100
    • Call for Nominations: The 2025 R&D 100 Awards
    • R&D 100 Awards Event
    • R&D 100 Submissions
    • Winner Archive
    • Explore the 2024 R&D 100 award winners and finalists
  • Resources
    • Research Reports
    • Digital Issues
    • R&D Index
    • Subscribe
    • Video
    • Webinars
  • Global Funding Forecast
  • Top Labs
  • Advertise
  • SUBSCRIBE

Scientists Map Flu Antibody Development

By R&D Editors | August 30, 2012

National Institutes of Health scientists have identified how a kind of immature immune cell responds to a part of influenza virus and have traced the path those cells take to generate antibodies that can neutralize a wide range of influenza virus strains. Study researchers from the National Institute of Allergy and Infectious Diseases (NIAID), part of NIH, were led by Gary Nabel, M.D., Ph.D., director of NIAID’s Vaccine Research Center. Their findings appear online in advance of print in Nature.

“This new understanding of how an immature immune cell transforms into a mature B cell capable of producing antibodies that neutralize a wide variety of influenza viruses could speed progress toward a universal flu vaccine — one that would provide protection against most or all influenza virus strains,” said NIAID Director Anthony S. Fauci, M.D.

Universal flu vaccines, which are in development at NIAID and elsewhere, differ significantly from standard influenza vaccines. Unlike standard vaccines, which prompt the immune system to make antibodies aimed at the variable head of a lollipop-shaped influenza protein called hemagglutinin (HA), a universal flu vaccine would elicit antibodies that target HA’s stem. Because the stem varies relatively little from strain to strain and does not change substantially from year to year, a vaccine that can elicit HA stem-targeted antibodies would, in theory, provide recipients with broad protection from the flu.The neutralizing antibodies generated would recognize any strain of flu virus.

Finding ways to elicit these broadly-neutralizing antibodies (bnAbs) is thus a key challenge for universal flu vaccine developers. However, there is a snag. Researchers knew what the end products (mature bnAbs) look like, but they did not have a clear picture of the initial steps that stimulate their development. Specifically, they lacked an understanding of how the precursor immune cell — called a naive B cell — first recognizes the HA stem and starts down a path that ends in mature bnAb-producing B cells.

In the new research, Dr. Nabel and his colleagues demonstrated that the immature antibodies can only recognize and bind to HA’s stem when the antibodies are attached to the membrane of a naive B cell. The investigators showed that this initial contact delivers a signal that triggers the maturation of these naive B cell into countless daughter cells, some of which acquire the specific genetic changes that give rise to HA-stem-binding antibodies. “We have repeated the first critical steps in the route leading to broadly neutralizing influenza antibodies,” said Dr. Nabel. “Understanding how such antibodies originate could allow for rational design of vaccine candidates that would prompt the correct naive B cells to go on to mature into bnAb-producing cells.”

The findings could also be relevant to HIV vaccine design, noted Dr. Nabel. There, too, eliciting bnAbs to relatively constant portions of HIV is a key goal. The insights into how naive B cells recognize constant components of a virus and mature into bnAb-producing cells could guide efforts to design an HIV vaccine capable of reproducing this effect.

Date: August 29, 2012
Source: National Institute of Allergy and Infectious Diseases

Related Articles Read More >

Eli Lilly facility
9 R&D developments this week: Lilly builds major R&D center, Stratolaunch tests hypersonic craft, IBM chief urges AI R&D funding
professional photo of wooly mammoth in nature --ar 2:1 --personalize sq85hce --v 6.1 Job ID: 47185eaa-b213-4624-8bee-44f9e882feaa
Why science ethicists are sounding skepticism and alarm on ‘de-extinction’
ALAFIA system speeds complex molecular simulations for University of Miami drug research
3d rendered illustration of the anatomy of a cancer cell
Funding flows to obesity, oncology and immunology: 2024 sales data show where science is paying off
rd newsletter
EXPAND YOUR KNOWLEDGE AND STAY CONNECTED
Get the latest info on technologies, trends, and strategies in Research & Development.
RD 25 Power Index

R&D World Digital Issues

Fall 2024 issue

Browse the most current issue of R&D World and back issues in an easy to use high quality format. Clip, share and download with the leading R&D magazine today.

Research & Development World
  • Subscribe to R&D World Magazine
  • Enews Sign Up
  • Contact Us
  • About Us
  • Drug Discovery & Development
  • Pharmaceutical Processing
  • Global Funding Forecast

Copyright © 2025 WTWH Media LLC. All Rights Reserved. The material on this site may not be reproduced, distributed, transmitted, cached or otherwise used, except with the prior written permission of WTWH Media
Privacy Policy | Advertising | About Us

Search R&D World

  • R&D World Home
  • Topics
    • Aerospace
    • Automotive
    • Biotech
    • Careers
    • Chemistry
    • Environment
    • Energy
    • Life Science
    • Material Science
    • R&D Management
    • Physics
  • Technology
    • 3D Printing
    • A.I./Robotics
    • Software
    • Battery Technology
    • Controlled Environments
      • Cleanrooms
      • Graphene
      • Lasers
      • Regulations/Standards
      • Sensors
    • Imaging
    • Nanotechnology
    • Scientific Computing
      • Big Data
      • HPC/Supercomputing
      • Informatics
      • Security
    • Semiconductors
  • R&D Market Pulse
  • R&D 100
    • Call for Nominations: The 2025 R&D 100 Awards
    • R&D 100 Awards Event
    • R&D 100 Submissions
    • Winner Archive
    • Explore the 2024 R&D 100 award winners and finalists
  • Resources
    • Research Reports
    • Digital Issues
    • R&D Index
    • Subscribe
    • Video
    • Webinars
  • Global Funding Forecast
  • Top Labs
  • Advertise
  • SUBSCRIBE