April 13, 2026

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Person functionally cured of HIV after bone marrow transplant from sibling

A man with HIV has gone into remission after receiving bone marrow from his brother, who has a rare mutation that prevents the function of receptors that HIV binds to

By Emma Gometz edited by Tanya Lewis

Colorized transmission electron micrograph of numerous HIV-1 virus particles (blue) replicating from a segment of a chronically infected H9 T cell (red).

NIAID/Flickr (CC BY 2.0)

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A 63-year-old man has been functionally cured of HIV with a bone marrow transplant. While bone marrow donations have resulted in HIV remission in the past, this is the first time that has occurred with a donation from the recipient’s sibling.

The man received a bone marrow donation from his brother, who has a rare genetic mutation called CCR5Δ32 that confers resistance to HIV-1, the most common type of human immunodeficiency virus. When a person has two copies of this genetic mutation, the CCR5 surface protein, to which HIV commonly binds, is prevented from being expressed on human immune cells called T cells. A paper published today in Nature Microbiology showed how, after the transplant, the donor cells had replaced the HIV-positive man’s bone marrow cells and their genes had two copies of a CCR5Δ32 mutation (not all cells in the recipient’s body got replaced, however). His healthy T cell count soared in the year after the procedure and stayed at healthy levels after he stopped antiretroviral therapy (ART)—the gold standard treatment for HIV—two years later.

ART drugs can prevent HIV from reproducing in the body and spreading to other people. But they don’t eliminate the virus entirely—it sticks around in dormant reservoirs around the body. If a person with HIV stops taking ART, the virus begins spreading again.

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In the new study, the researchers tested the recipient’s blood, gut tissues and bone marrow to search for reservoirs of HIV after the bone marrow transplant. They found no detectable HIV in the places it would normally linger in someone who was on ART.

“If this reaction does not happen in all or at least most of the immunological tissues, there might be a risk for rebound at some point,” says Marius Trøseid, an infectious disease specialist at Oslo University Hospital and a co-author of the paper. “I think we have shown, for the first time, that it’s a complete engraftment—both in peripheral blood, which has been shown in several other cases, in bone marrow, which has also been shown in a couple of other cases, and then also the gut mucosal tissue, which we think is key for [a] cure.”

But this treatment isn’t yet available for most people with HIV. Patients in New York City, London, Dusseldorf and other places who achieved HIV remission after a bone marrow transplant from a donor with a CCR5Δ32 mutation each needed it for another reason, such as cancer treatment.

“This is really only for a patient with additional malignancies or medical conditions that require a transplant because [by] itself, it's just too risky” compared with ongoing ART treatment, says Jingmei Hsu, an oncologist at NYU Langone Health’s Laura and Isaac Perlmutter Cancer Center and lead author of the study on a patient in New York City, who was not part of the new paper.

For recipients, bone marrow transplants present significant risks, including severe infections, graft versus host disease (GVHD), in which donor cells attack the patient’s body, or even death. So “the risk of transplant needs to be substantially lower than the risk of the patient dying from their malignancy,” Trøseid says.

Through various studies that have measured the effect of a bone marrow transplant on a person’s HIV status, scientists have seen the infection go into remission even when the donor does not have two copies of the CCR5Δ32 mutation. Because the new study used donor cells from the patient’s sibling, it adds novel information about how these transplants work.

If the cells are too different from those of the donor, transplant complications such as GVHD could be more of