Category Health/Medical

How to Engineer a Stronger Immune System

Josh Zimmerman, Ph.D., (right) and Todd McDevitt, Ph.D., discovered a biomaterials hack that can boost cells' ability to combat inflammation and potentially treat autoimmune diseases. Credit: Elisabeth Fall

Josh Zimmerman, Ph.D., (right) and Todd McDevitt, Ph.D., discovered a biomaterials hack that can boost cells’ ability to combat inflammation and potentially treat autoimmune diseases. Credit: Elisabeth Fall

A biomaterials hack can boost cells’ ability to combat inflammation and potentially treat autoimmune diseases. With a trick of engineering, scientists at the Gladstone Institutes improved a potential weapon against inflammation and autoimmune disorders. Their work could one day benefit patients who suffer from IBD or organ transplant rejection.

Mesenchymal stromal cells (MSCs) reside in bone marrow and have been found to secrete anti-inflammatory proteins that help regulate the immune system...

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Researchers find Brain’s ‘Physics Engine’

JHU_physics_engine_Brain_rotated_wireframe

Rotated wireframe of brain’s physical inference and action centers

The ‘Physics Engine’ of the brain predicts how world behaves; among ‘most important aspects of cognition for survival’. Whether or not they aced the subject in high school, human beings are physics masters when it comes to understanding and predicting how objects in the world will behave. A Johns Hopkins University cognitive scientist has found the source of that intuition, the brain’s “physics engine.”

This engine, which comes alive when people watch physical events unfold, is not in the brain’s vision center, but in a set of regions devoted to planning actions, suggesting the brain performs constant, real-time physics calculations so people are ready to catch, dodge, hoist or take any necessary action, on the fly...

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Thyroid Tumor: It takes 2 to Tango

 A significant number of autumnous adenomas carry a mutation in a gene that is involved in controlling cell proliferation and differentiation. EZH1 – or Enhancer of Zeste Homolog 1 – is the scientific name of this gene. ( Graphic: Davice Calebiro / Kerstin Bathon)

A significant number of autumnous adenomas carry a mutation in a gene that is involved in controlling cell proliferation and differentiation. EZH1 – or Enhancer of Zeste Homolog 1 – is the scientific name of this gene. ( Graphic: Davice Calebiro / Kerstin Bathon)

Autonomous adenomas are the most common benign tumors of the thyroid gland. Mutations in 2 genes account for around 70% of the cases. Scientists have now discovered another key trigger. Thyroid hormones are involved in controlling many functions of the human body: They influence sugar, lipid and protein metabolism, regulate body temperature, heart rate, circulation and many more functions. In children, they also control the development of the brain and nerves as well as bone growth...

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Researchers have discovered a Mechanism that allows Cancer to Survive Without Glucose

Highlights •URI/OGT/PP1γ forms a functional heterotrimeric complex in cancer cells •Glucose depletion phosphorylates URI at Ser-371, releasing PP1γ to inhibit OGT •OGT inhibition reduces c-MYC, promoting cancer cell survival upon metabolic stress •URI (S371A) increases O-GlcNAcylation, c-MYC levels, and hepatocarcinogenesis

Highlights •URI/OGT/PP1γ forms a functional heterotrimeric complex in cancer cells •Glucose depletion phosphorylates URI at Ser-371, releasing PP1γ to inhibit OGT •OGT inhibition reduces c-MYC, promoting cancer cell survival upon metabolic stress •URI (S371A) increases O-GlcNAcylation, c-MYC levels, and hepatocarcinogenesis

New research provides important clues that might help understand the resistance to drugs that ‘starve’ tumors, and also how cancer cells manage to survive in the center of the tumor mass, where barely any blood vessels can reach...

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