Partial bone marrow transplant can dramatically improve survival of mice with cystic fibrosis

Scientists at La Jolla Institute for Immunology (LJI) have found they can dramatically improve survival of mice with cystic fibrosis through a partial bone marrow transplant. Their new study in the Journal of Immunology shows that a partial bone marrow transplant helps these mice by introducing a population of healthy immune cells called monocytes.

The researchers believe that partial bone marrow transplants are a promising route for giving patients long-lasting relief from cystic fibrosis symptoms.

This research suggests a new strategy to improve the symptoms of cystic fibrosis, especially the body's ability to fight infections."

Zhichao Fan, Ph.D., study first author, researcher with LJI and the University of Connecticut School of Medicine

"The transplant is enough for a better life-;at least in mice," adds senior author LJI Professor Klaus Ley, M.D., a member of the LJI Center for Autoimmunity and Inflammation.

The researchers emphasize that even though this therapy is still in preclinical stages, the technique could be ideal for treating patients when cystic fibrosis symptoms first appear.

Importantly, a partial bone marrow transplant doesn't treat any single genetic defect. This means transplants may one day help all cystic fibrosis patients, including those who don't benefit from current therapies. Before this research moves to human testing, the partial bone marrow transplant technique would require assessment in larger animal models, say the scientists.

Helping the most vulnerable patients

Cystic fibrosis is an inherited disease that leaves patients struggling to breathe and digest food from an early age. People with cystic fibrosis cannot clear mucus from their lungs, which means they are extremely vulnerable to infections.

Professor Douglas Conrad, M.D., is a pulmonologist with UC San Diego Health and director of the Adult Cystic Fibrosis Clinic. He works closely with patients who have spent their entire lives on intense therapeutic regimens and devote many hours a day to treatments and chest physiotherapies to loosen mucus in their lungs. These patients know they may only live into their forties.

"These are young people, but they're taking 10 to 30 medications a day," says Conrad, who co-authored the new study. "There's a huge treatment burden."

Recently, a drug called Trikafta® was approved as a cystic fibrosis therapy. The drug modulates the CFTR gene that is mutated in people with cystic fibrosis. "This has been a transformational event over the last two years," says Conrad. "It has turned a very severe disease into a kind of a mild disease." Trikafta® helps many patients live longer, but it doesn't work for everyone.

"We don't have a cure yet," says Conrad. "And about 10 percent of patients are not eligible for this kind of CFTR modulator therapy. Living with cystic fibrosis, especially if you can't use CFTR modulators, is a very scary thing to go through."

A few years ago, Ley came to Conrad with an interesting idea: What if doctors could help more patients by replacing the dysfunctional cells in cystic fibrosis?

Ley wanted to address what he calls "the monocyte problem."

Monocytes develop in the body's bone marrow and serve as important guardians of the lungs, gut and other organs. Monocytes fight disease by engulfing and "eating" up harmful microbes and alerting other immune cells to trouble.

In previous studies, researchers had found that CFTR, the defective gene in cystic fibrosis, leads to an adhesion defect in monocytes. "These monocytes can't get to where they need to go in the gut or the lung," says Ley.

Ley, a noted world expert in monocytes, wondered if his lab could "rescue" this monocyte defect by giving patients new bone marrow that can produce healthy monocytes. Ley's team is not the first to study bone marrow transplants in cystic fibrosis models, but it is the first to focus on the importance of replacing defective monocytes.

How it works

Any transplant would have to be a partial transplant. Preparing for a full transplant would mean eliminating a patient's ability to make any immune cells in their own bone marrow, which would leave them defenseless against pathogens for too long.

"A lot of cystic fibrosis patients are dealing with chronic infections, so they are not suitable candidates for a full bone marrow transplantation," says Fan.

So the researchers turned to a mouse model of cystic fibrosis to see what could work. Their work shows that a partial transplant helped the mice live longer and experience much less inflammation.

"We showed that around a 60 to 70 percent replacement of bone marrow in mice can improve the symptoms of inflammation in cystic fibrosis," says Fan. "This was really good."

The team discovered that the monocytes from these rescued mice could fight bacteria in laboratory tests, while defective cystic fibrosis monocytes could not. Fan says the next step is to see how the mice themselves fare when challenged with an infection.

The researchers further examined the role of monocytes in cystic fibrosis by transplanting only the defective monocytes from the sick mice into healthy mice. These healthy mice developed the tell-tale symptoms of cystic fibrosis, which told the researchers that monocytes don't just contribute to cystic fibrosis symptoms-;defective monocytes are enough to cause many of the symptoms.

The LJI team is also interested in studying how monocytes in cystic fibrosis patients develop a defect in the first place. "What is the molecular mechanism behind this defect?" asks Fan. "If we can study this, we might be able to design a drug that can target it."

Source:

La Jolla Institute for Immunology

Journal reference:

Fan, Z., et al. (2022) Bone marrow transplantation rescues monocyte recruitment defect and improves cystic fibrosis in mice. Journal of Immunology. doi.org/10.4049/jimmunol.1901171.

Posted in: Medical Procedure News | Medical Science News | Medical Research News | Medical Condition News

Tags: Autoimmunity, Bacteria, Bone, Bone Marrow, Bone Marrow Transplant, Chronic, Cystic Fibrosis, Fibrosis, Food, Gene, Genetic, Heart, Immune System, Immunology, Inflammation, Laboratory, Lungs, Medicine, Monocyte, Mouse Model, pH, Preclinical, Research, Transplant

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