Arthur T Knackerbracket has found the following story:
Millions of people die every year from dehydration as a result of exposure and illness. In humans, even the most minor dehydration can compromise the kidneys causing lifelong, irreparable issues or even death. However, some animals living in desert environments are able to survive both acute and chronic dehydration. While these animals, like cactus mice, have evolved over time to deal with environmental stressors like dehydration, researchers at the University of New Hampshire have found it's not the physical makeup that is helping them survive, but rather their genetic makeup.
"Initially, we thought that maybe their kidneys are structurally different from people, but they're not," said Matt MacManes, assistant professor of genome enabled biology at UNH and lead author of the study. "However, when exposed to acute dehydration, no kidney injury was apparent, which would definitely be the case for humans exposed to similar levels of dehydration, suggesting their genes may be what's preventing widespread kidney damage."
"The kidney is the canary in the coal mine when it comes to dehydration," continues MacManes. "The exciting outcome of this research is that the molecular toolkit of the cactus mouse has orthologues, or related genes, in humans. These provide the potential for development of drugs or other therapies that could help protect the human body from the damages of dehydration." Such a response could be extremely valuable in a wide variety of situations -- for people with renal failure, where water is severally limited due to geography or possibly global climate change, for troops deployed in the desert, and perhaps even in space travel.
-- submitted from IRC
Journal Reference: Matthew David MacManes. Severe acute dehydration in a desert rodent elicits a transcriptional response that effectively prevents kidney injury. American Journal of Physiology - Renal Physiology, 2017; 313 (2): F262 DOI: 10.1152/ajprenal.00067.2017
(Score: 2) by PiMuNu on Wednesday August 16 2017, @08:44AM (2 children)
I don't understand how kidney damage can be fixed by genes? There must surely be a physical mechanism which does something.
(Score: 3, Interesting) by Bobs on Wednesday August 16 2017, @10:05AM
Yes, the genes drive a physical mechanism the does the repairs.
Humans currently do not have the instructions / sub-system to deal with major kidney damage.
But these mice do.
It is like how humans have a mechanism, coded in their genes to fully regenerate a lost finger tip. Lose a bit at the end and it can all grow back.
But if you lose the entire hand at the wrist - it will not grow back. We don't have the (genetic) code to tell our body when and how to regrow it.
https://en.m.wikipedia.org/wiki/Regeneration_in_humans [wikipedia.org]
The idea is to find the genetic coding that will add a sub-routine to our bodies that
a) recognizes damage has been done and
b) initiates proper repair work and
c) recognizes when it is fixed and tells it to stop (re)building kidney cells. (If no c) process, you end up with cancer. )
Our body is like a general purpose computer and 3D-printer, sometimes needing new (genetic) code to allow new functionality.
Make sense?
(Score: 2) by takyon on Wednesday August 16 2017, @10:24AM
Proteins are physical!
The paper has much more specific information:
Cute mouse? [lpzoo.org]
[SIG] 10/28/2017: Soylent Upgrade v14 [soylentnews.org]