Tag: Cool Creatures

How a Cell Knows Friend From Foe

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We asked the heads of our scientific divisions to tell us about some of the big questions in fundamental biomedical science that researchers are investigating with NIGMS support. This article is the first in an occasional series that will explore these questions and explain how pursuing the answers could advance understanding of important biological processes.

Video screen shot showing different strains of amoeba cells in red and green.
This video shows different strains of amoeba cells in red and green. As cells move toward one another, they use two sets of proteins to recognize others from the same strain. When close relatives meet, their proteins match and the cells join together to form a multicellular structure. When cells from different strains meet, their proteins don’t match, so they can’t aggregate. Credit: Shigenori Hirose, Baylor College of Medicine.

Cells are faced with many decisions: When’s the best time to produce a new protein? To grow and split into two? To treat another cell as an invader? Scientists are working to understand how cells make these and many other decisions, and how these decisions contribute to health and disease.

An active area of research on cell decisions focuses on allorecognition, the ability of an organism to distinguish its own cells from those of another. Immune cells use a system called the major histocompatibility complex (MHC) to identify which cells belong to the body and which are foreign. The particular set of MHC proteins on the outer surface of a cell helps immune cells decide whether it does not belong and should be attacked.

But the system isn’t perfect. Invading pathogens can go undetected, and the body can mistake its own cells for intruders. Continue reading “How a Cell Knows Friend From Foe”

How Heat-Loving Organisms Are Helping Advance Medicine

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Hot spring. Credit: Stock image.
Icelandic hot springs are the natural habitat of Rhodothermus marinus, one of many species of thermophiles that the Gennis Lab studies to better understand membrane proteins. Credit: Stock image.

As the temperature climbs, most humans look for ways to cool down fast. But for some species of microorganisms, a midsummer heat wave isn’t nearly hot enough. These heat lovers, known as thermophiles, thrive at temperatures of 113°F or more. They’re often found in hot springs, geysers and even home water heaters.

Like humans and other organisms, thermophiles rely on proteins to maintain normal cell function. While our protein molecules break down under intense heat, a thermophile’s proteins actually work more efficiently. They also tend to be more stable at room temperature than our own. An NIH-funded research team is taking advantage of this property of thermophiles to better understand a group of human proteins commonly targeted by today’s medicines.

Read more about the team’s thermophile research in this Inside Life Science article.