Tagged: NR4A2

When undruggable becomes druggable

 

Nuclear receptor related 1 protein (or NURR1) is a protein that has been shown to have a powerful effect on the survival of dopamine neurons – a population of cells in the brain that is severely affected by Parkinson’s.

For a long time researchers have been searching for compounds that would activate NURR1, but the vast majority of those efforts have been unsuccessful, leaving some scientists suggesting that NURR1 is “undruggable” (meaning there is no drug that can activate it).

Recently, however, a research report was published which suggests this “undruggable” protein is druggable, and the activator is derived from a curious source: dopamine

In today’s post, we will discuss what NURR1 is, what the new research suggests, and how this new research could be useful in the development of novel therapeutics for Parkinson’s.

 


Source: PPcorn

It always seems impossible until it’s done – Nelson Mandela

In 1997, when Nelson Mandela was stepping down as President of the African National Congress, some researchers in Stockholm (Sweden) published the results of a study that would have a major impact on our understanding of how to keep dopamine neurons alive.

(Yeah, I know. That is a strange segway, but some of my recent intros have dragged on a bit – so let’s just get down to business)

Dopamine neurons are of the one groups of cells in the brain that are severely affected by Parkinson’s. By the time a person begins to exhibit the movement symptoms of the condition, they will have lost 40-60% of the dopamine neurons in a region called the substantia nigra. In the image below, there are two sections of brain – cut on a horizontal plane through the midbrain at the level of the substantia nigra – one displaying a normal compliment of dopamine neurons (on the left) and the other from a person who passed away with Parkinson’s demonstrating a reduction in this cell population (on the right).

The dark pigmented dopamine neurons in the substantia nigra are reduced in the Parkinsonian brain (right). Source:Memorangapp

The researchers in Sweden had made an amazing discovery – they had identified a single gene (a specific region of DNA) that was critical to the survival of dopamine neurons. When they artificially disrupted the section of DNA where this gene lives – an action which resulted in no protein for this gene being produced – it resulted in mice being born with no midbrain dopamine neurons:

Title: Dopamine neuron agenesis in Nurr1-deficient mice
Authors: Zetterström RH, Solomin L, Jansson L, Hoffer BJ, Olson L, Perlmann T.
Journal: Science. 1997 Apr 11;276(5310):248-50.
PMID: 9092472

The researchers who conducted this study found that the mice with no NURR1 protein exhibited very little movement and did not survive long after birth. And this result was very quickly replicated by other independent research groups (Click here and here to see examples)

So what was this amazing gene called?

Nuclear receptor related 1 protein (or NURR1; it is also known as NR4A2 – nuclear receptor subfamily 4, group A, member 2)

And what is NURR1?

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Are we getting NURR to the end of Parkinson’s disease?

Nuclear receptor related 1 protein (or NURR1) is a protein that is critical to the development and survival of dopamine neurons – the cells in the brain that are affected in Parkinson’s disease.

Given the importance of this protein for the survival of these cells, a lot of research has been conducted on finding activators of NURR1.

In today’s post we will look at this research, discuss the results, and consider issues with regards to using these activators in Parkinson’s disease.


Comet Hale–Bopp. Source: Physics.smu.edu

Back in 1997, 10 days after Comet Hale–Bopp passed perihelion (April 1, 1997 – no joke; perihelion being the the point in the orbit of a comet when it is nearest to the sun) and just two days before golfer Tiger Woods won his first Masters Tournament, some researchers in Stockholm (Sweden) published the results of a study that would have a major impact on our understanding of how to keep dopamine neurons alive.

Dopamine neurons are one group of cells in the brain that are severely affected by Parkinson’s disease. By the time a person begins to exhibit the movement symptoms of the condition, they will have lost 40-60% of the dopamine neurons in a region called the substantia nigra. In the image below, there are two sections of brain – cut on a horizontal plane through the midbrain at the level of the substantia nigra – one displaying a normal compliment of dopamine neurons and the other from a person who passed away with Parkinson’s demonstrating a reduction in this cell population.

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The dark pigmented dopamine neurons in the substantia nigra are reduced in the Parkinson’s disease brain (right). Source:Memorangapp

The researchers in Sweden had made an amazing discovery – they had identified a single gene that was critical to the survival of dopamine neurons. When they artificially mutated the section of DNA where this gene lives – an action which resulted in no protein for this gene being produced – they generated genetically engineered mice with no dopamine neurons:

Title: Dopamine neuron agenesis in Nurr1-deficient mice
Authors: Zetterström RH, Solomin L, Jansson L, Hoffer BJ, Olson L, Perlmann T.
Journal: Science. 1997 Apr 11;276(5310):248-50.
PMID: 9092472

The researchers who conducted this study found that the mice with no NURR1 protein exhibited very little movement and did not survive long after birth. And this result was very quickly replicated by other research groups (Click here and here to see examples)

So what was this amazing gene called?

Continue reading