BioQuakes

AP Biology class blog for discussing current research in Biology

Author: mikeochondria

Inside Out

CRISPR is a revolutionary tool used for editing the human genome. It allows for the altering of  any given DNA sequence and ability to modify any one specific genes’ function. Its applicability consists of correcting genetic defects, treating and preventing the spread of diseases, and improving crops. However, it also raises some ethical concerns, that of which mainly is the idea that practicing CRISPR technology could be considered as playing the role of “God”.

CRISPR was adapted from the natural defense mechanisms of bacteria, which use CRISPR-derived RNA and Cas proteins, to prevent attacks by viruses and other intruding organisms. They do so by chopping up and destroying the DNA of the virus. When these components are derived and applied to more complex, organisms, it allows for the manipulation of genes.

Disregarding its ethical concerns, CRISPR can provide substantial support to a previously uncharted area of medicine; the diagnosing and treating of genetic disorders, which was previously thought to be that if one had a genetic disorder it would be incurable.  Clinical trials are set to take place both in Europe and in North America, where patients with rare genetic disorders will give cellular samples in an attempt to alter their genome, implant them back into the individual, and hopefully cure the genetic abnormality.

With CRSPR taking such progressive strides in the past year, it is not outrageous to predict what its usage could end up providing society with.  With the ability to edit the human genome there are endless possibilities in which science could evolve this area of study to benefit the human race.  CRISPR can even be used to boost the expected intelligence of an embryo.  Who knows, thirty years from now we could be watching the news and hear of the first ever “superhuman”, a genetically modified human that has been hand-coded for optimality in all human functions.

Stem Cells to the Rescue

Nerve damage has always been thought of to be permanent.  Now, recent studies show that stem cells are actually able to help the regrowth of nerve cells, and restore function to damaged areas.  The discovery of stem cell ability to do this has not only stunned the scientific community, but in the years to follow will have a gargantuan effect on the diagnosis’ and treatments of many nerve related diseases.

Stem cells can be found throughout the body in numerous locations: Bone marrow, blood, blood vessels, and skeletal muscles.  What make stem cells unique to other types of cells is there ability to replicate and evolve into different types of tissue.  With this ability, scientists have taken stem cells to research them, hoping that one day that will be a common treatment for nerve damage, which currently is thought to be permanent.

A study from the University of Pittsburg School of Medicine has recently tested the compatibility of stem cells to aid damaged nerve areas on mice.  The study consisted of scientists injecting human muscle-derived stem cells into surgically created right sciatic nerve defects in mice, in charge of controlling movement in the right leg.  The study found that six weeks post injection the mice that were treated with the human stem cells had recovered full nerve functionality, while the mice that were left untreated experienced limited nerve regrowth and functionality.

The process in which stem cells can be injected into a individual are as follows: Firstly, a hollow tube filled with stem cells is placed in the injured site.  This is the most common, and most studied process of how to inject stem cells.  There are alternative ways in which to do so which involve injecting the cells into hydrogel prior to inserting them into a hollow tube, but this method seems to be far more tedious and expensive, and not delivering the same results.

These findings can prove to be absolutely revolutionary to treatments for diseases such as MS and ADEM.  As of now, patients diagnosed with MS know that they will have that disease for the rest of their life.  Stem cells will now be able to be injected into the CNS to help regrow the damaged nerves.  I believe that this is one of the most game-changing discoveries in science, altering the way we look at the nervous system as something that cannot be fixed once damaged.

What is your take on the recent discoveries of usage of stem cells?  Post your thoughts, comments, or critiques in the comments.

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