Get To Know JAK2 and Its Role in 博彩app软件下载

Most patients with myelofibrosis have a mutation in this cellular on-off switch.

December 05, 2019
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or researchers studying myelofibrosis, the JAK protein family doesn’t live up to its original name. Initially nicknamed “Just Another Kinase,” the Janus Kinase 2 protein has recently been identified as one of the key players in myelofibrosis, a cancer in which excessive scar tissue forms in the bone marrow that disrupts the normal production of blood cells.

“It took us a long time to realize a mutation in JAK2 was responsible for the majority of patients with myelofibrosis,” said Dr. Claire Harrison, a hematologist at an NHS Foundation Trust in London. “But once it was discovered, it opened a whole new area of exploration in the field.”

Harrison and others are still uncovering the mysteries behind JAK2, but what they already know is changing how doctors treat patients with myelofibrosis.

First Impressions of the JAK2 Gene Mutation

JAK2 was first identified 30 years ago in a shotgun approach to identify anything resembling a family of enzymes known at the time for prompting cell growth and development. The researchers found JAK2 in a line of perpetually youthful cells that give rise to blood cells. “JAK2 is important for the production of healthy blood cells,” explained Harrison. In a mouse model, for example, if you remove the JAK2 gene, the mouse cannot produce enough blood cells and will not survive.”

Since then, plenty more has been learned 博彩app软件下载app软件 its role in developing blood cells.  In 2005, researchers discovered that 博彩app软件下载app软件 half of patients with myelofibrosis had a specific mutation of JAK2—V617F.  Furthermore, they discovered that those with the V617F mutation did not live as long after diagnosis as those without that particular genetic mutation.

“The V617F mutation is by far the most common mutation seen in myelofibrosis,” said Harrison. “JAK2 molecular testing has become standard in the work up and diagnosis of myelofibrosis and other myeloproliferative diseases.”

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Since the discovery of the V617F mutation, researchers have learned how this mutation affects the JAK2 protein and how that, in turn, may affect blood production.

The name “V617F” explains how the mutation changes the composition of the JAK2 protein. The mutation switches out an amino acid called valine—the “V” in “V617F”—at the 617th position in the protein with another amino acid called phenylalanine, which scientists represent with an “F.” This amino acid swap in V617F causes a malfunction.

“It’s like turning the switch on for longer than normal,” Harrison said. “As a result, the bone marrow produces too many abnormal blood cells.”

Imagine Lucille Ball wrapping chocolates in the famous “I Love Lucy” episode. At the assembly line’s normal pace, she wraps the chocolates with ease. But when they start coming faster, she struggles to keep up.

Similarly, the mutation sends blood cells at a pace beyond what the body can handle. This may lead to scarring in the bone marrow, an excess of abnormal white blood cells and too few functioning red blood cells.

By 2010, researchers had studied V617F enough to understand that the mutation was a driver myeloproliferative disorders in mouse models. That discovery led to further research in myelofibrosis and other myeloproliferative diseases.

It’s like turning the switch on for longer than normal. As a result, the bone marrow produces too many abnormal blood cells.

Running Interference on JAK2

Within two years of verifying V617F as a driver of myelofibrosis, researches applied a new therapeutic approach: JAK inhibitors, therapies designed to inhibit the activity of the JAK family of enzymes. “This was very gratifying for those of us in the field,” Harrison said. “The speed at which the discovery was translated was inspiring.”

“There are many other mutations involved in these diseases,” Harrison said. “And JAK inhibitors may target the pathways where these mutations are active.

Despite these great strides, questions 博彩app软件下载app软件 JAK2 remain. For instance, researchers do not know why JAK2 mutations can be seen in a wide variety of myeloproliferative diseases, all with different symptoms and outcomes for patients. But researchers are working to better understand their role with the goal of developing more refined JAK2 inhibitors.

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