• Log in with Facebook Log in with Twitter Log In with Google      Sign In    
  • Create Account
  LongeCity
              Advocacy & Research for Unlimited Lifespans

Photo

Overcoming the blood-brain-barrier: Delivering therapeutics to the brain

peptides blood-brain barrier nanoligand carriers

  • Please log in to reply
No replies to this topic
⌛⇒ MITOMOUSE has been fully funded!

#1 Engadin

  • Guest
  • 116 posts
  • 271
  • Location:Madrid
  • NO

Posted 12 October 2019 - 09:41 PM


.

 

 

 

S O U R C E :    MedicalXpress

 

F U L L   T E X T   P R I M A L   S O U R C E :   nature COMMUNICATIONS

T I T L E :   Crossing the blood-brain-barrier with nanoligand drug carriers self-assembled from a phage display peptide

 

 

 

 

 

overcomingth.jpg

 

Self-assembly of a peptide to 'hairy-like particles' that target the brain on intravenous injection. Credit: Professor Moein Moghimi, Newcastle University, UK

 

 

For the first time, scientists have identified a simple way to effectively transport medication into the brain—which could lead to improved treatments for neurological and neurodegenerative diseases.

 

In a study published today in Nature Communications, scientists from Newcastle University, UK, have led an international team in a major breakthrough in unlocking the secrets of how medications can infiltrate the brain.

 

Blood capillaries in the brain are not permeable to many drugs and the majority are excluded from the brain by a protective barrier, called the blood-brain-barrier (BBB), and current treatment options are risky.

 

Some viruses, however, have found ways to bypass the BBB and enter the brain. To treat certain neurological and neurodegenerative diseases, medication has to use modified viruses to bypass this barrier and deliver drugs to the area.

 

 

Major breakthrough

 

The team has now engineered small particles, similar to the size of viruses, from a peptide that can behave like a carrier to the brain and can be packed with drugs for intravenous injection.

 

Professor Moein Moghimi, who led the research, said: "Crossing the blood-brain-barrier has hindered the industry from effectively addressing central nervous system diseases, including brain tumours, and many neurological diseases like Parkinson's, Alzheimer's and Huntington's.

 

 

1-overcomingth.jpg

 

Self-assembly of a peptide to 'hairy-like particles' that target the brain on intravenous injection. Credit: Professor Moein Moghimi, Newcastle University, UK

 

 

"This breakthrough—based on more than 10 years of research—has significant implications for crossing BBB and other biological barriers that have created challenges for drug delivery.

 

"Our breakthrough allows for minimally invasive combination delivery through an intravenous injection of various drugs, peptides and nucleic acid therapeutics to the brain."

 

At present, treatment of neurological disorders involves difficulties in 'packaging' viruses safely and medication is usually administered by injection into the cerebrospinal fluid, which is not without risks.

 

The new technological breakthrough in delivering genetic materials to cells in the brain has used a peptide component from a virus that targets the brain (a bacteriophage fd). The peptide was synthesised and modified slightly, and when water was added it spontaneously formed a 'small, hairy particle.'

 

Scientists found that when the developed particle was injected into a mouse model, the system targeted the brain, crossing the blood-brain-barrier, reaching neurons and microglia cells in the brain.

 

Professor Moghimi added: "We are very excited by our research—our delivery system is versatile and amenable to modifications, so, in principle, we can hopefully address shortfalls in drug delivery to the brain through intravenous injection.

 

 

.../...

 

 

 
 
 
 
 
 
.
 

Edited by Engadin, 12 October 2019 - 09:42 PM.






Also tagged with one or more of these keywords: peptides, blood-brain barrier, nanoligand carriers

0 user(s) are reading this topic

0 members, 0 guests, 0 anonymous users