Zika tagged posts

It’s been known for years that humans and other mammals possess an antiviral gene called RSAD2 that prevents a remarkable range of viruses from multiplying. Now, researchers at Albert Einstein College of Medicine, part of Montefiore, have discovered the secret to the gene’s success: The enzyme it codes for generates a compound that stops viruses from replicating. The newly discovered compound, described in today’s online edition of Nature, offers a novel approach for attacking many disease-causing viruses.

“Nature has given us a template for creating a powerful and safe antiviral compound,” says study leader Steven C. Almo, Ph.D...

360 degree imaging of human brain organoids using lightsheet microscope, showing smooth appearance of normal organoid (left) and surface folding in PTEN mutant organoid (right) — as well as the mutant organoid’s large size. Credit: Yun Li and Julien Muffat

Implications also for understanding Zika virus-caused microencephaly. Whitehead Institute provide insight into a specific gene pathway that appears to regulate the growth, structure, and organization of the human cortex. They also demonstrate that 3D human cerebral organoids – miniature, lab-grown versions of specific brain structures – can be effective in modeling the molecular, cellular, and anatomical processes of human brain development. And they suggest a new path for identifying the cells affected by Zika virus.

“We found that incr...

A transmission electron micrograph image of the Zika virus. Credit: Centers for Disease Control and Prevention

Scientists potentially have found a way to disrupt Zika and similar viruses from spreading in the body. A team at Washington University School of Medicine in St. Louis has identified a single gene pathway that is vital for Zika and other flaviviruses to spread infection between cells. Further, they showed that shutting down a single gene in this pathway – in both human and insect cells – does not negatively affect the cells themselves and renders flaviviruses unable to leave the infected cell, curbing the spread of infection.

Michael Diamond, MD, PhD, the Herbert S...

A cross-section of mouse dorsal root ganglia stained for memory CD4 T cells (green) and the vascular cell adhesion molecule, VCAM-1 (red) after six days of genital herpes challenge. Credit: Norifumi Iijima

Yale scientists have solved a puzzle of the immune system – how antibodies enter the nervous system to control viral infections. Their finding may have implications for the prevention and treatment of a range of conditions, including herpes and Guillain-Barre syndrome, which has been linked to the Zika virus.

Many viruses, such as West Nile, Zika, HSV enter the nervous system, where they were thought to be beyond the reach of antibodies. Yale immunobiologists Dr...