What’s the function of BBB?
The blood-brain barrier acts as a gatekeeper by blocking toxins and
other foreign substances in the bloodstream from entering brain tissue and
damaging it. It also can prevent potential therapeutic drugs from reaching the
brain. Neurological disorders such as amyotrophic lateral sclerosis (Lou
Gehrig's disease), Parkinson's disease and Huntington's disease, which
collectively affects millions of people, have been linked to defective
blood-brain barriers that keep out biomolecules needed for healthy brain activity.
How it was generated:
For their
study, a team of investigators generated stem cells known as induced
pluripotent stem cells, which can produce any type of cell, using an individual
adult's blood samples. They used these special cells to make neurons,
blood-vessel linings, and support cells that together make up the blood-brain
barrier. The team then placed the various types of cells inside Organ-Chips,
which recreated the body's microenvironment with the natural physiology and
mechanical forces that cells experience within the human body.
The
living cells soon formed a functioning unit of a blood-brain barrier that
functions as it does in the body, including blocking entry of certain drugs.
Significantly, when this blood-brain barrier was derived from cells of patients
with Huntington's disease or Allan-Herndon-Dudley syndrome, a rare congenital neurological disorder, the barrier malfunctioned in the same way that it does
in patients with these diseases.
Well!! This was not the first time:
Scientists have created blood-brain barriers outside the body before,
this study further advanced the science by using induced pluripotent stem cells
to generate a functioning blood-brain barrier, inside an Organ-Chip, that
displayed a characteristic defect of the individual patient's disease.
The study's findings open a promising pathway for precision medicine. The possibility of using a
patient-specific, multicellular model of a blood-brain barrier on a chip
represents a new standard for developing predictive, personalized medicine.