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Tuesday, May 24, 2016
Pasco Press

Aging’s impact on body’s defenses probed

There’s a good reason people older than 60 are not donor candidates for bone marrow transplantation: The immune system ages and weakens with time, making the elderly prone to life-threatening infection and other maladies.
A University of California San Francisco research team now has discovered a reason why.
“We have found the cellular mechanism responsible for the inability of blood-forming cells to maintain blood production over time in an old organism, and have identified molecular defects that could be restored for rejuvenation therapies,” said Emmanuelle Passegué, a professor of medicine and a member of the Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research at UCSF.
Passegué, an expert on the stem cells that give rise to the blood and immune system, led a team that published the findings online July 30 in the journal Nature.
Blood and immune cells are short-lived, and unlike most tissues, must be constantly replenished. The cells that must keep producing them throughout a lifetime are called “hematopoietic stem cells.”
Through cycles of cell division, these stem cells preserve their own numbers and generate the daughter cells that give rise to replacement blood and immune cells. But the hematopoietic stem cells falter with age, because they lose the ability to replicate their DNA accurately and efficiently during cell division, Passegué’s lab team determined.
Especially vulnerable to the breakdown, the UCSF researchers discovered in their new study of old mice, are transplanted aging blood-forming stem cells, which lack the ability to make B cells of the immune system. These B cells make antibodies that help fight all sorts of microbial infections, including bacteria that cause pneumonia, a leading killer of the elderly.
In old blood-forming stem cells, the researchers found a scarcity of specific protein components needed to form a molecular machine called the mini-chromosome maintenance helicase, which unwinds double-stranded DNA so that the cell’s genetic material can be duplicated and allocated to daughter cells later in cell division. In their study the stem cells were stressed by the loss of activity of this machine and as a result were at heightened risk for DNA damage and death when forced to divide.
The researchers discovered that even after the stress associated with DNA replication, surviving, nondividing, resting, old stem cells retained molecular tags on DNA-wrapping histone proteins, a feature often associated with DNA damage. The researchers determined, however, that these old survivors could repair induced DNA damage as efficiently as young stem cells.
“Old stem cells are not just sitting there with damaged DNA ready to develop cancer, as it has long been postulated” Passegué said.
But not all was well in the old surviving stem cells. The molecular tags accumulated on genes needed to make the cellular factories known as ribosomes. The ribosomes make all the cell’s proteins.
Passegué will further explore the consequences of reduced protein production as part of her ongoing research.
“Everybody talks about healthier aging,” Passegué said. “The decline of stem-cell function is a big part of age-related problems. Achieving longer lives relies in part on achieving a better understanding of why stem cells are not able to maintain optimal functioning.”
Passegué hopes it will be possible to prevent declining stem-cell populations by developing a drug to prevent the loss of the enzymes needed to faithfully unwind and replicate DNA, thereby avoiding immune-system failure.
Among the additional study authors are graduate student Johanna Flach and postdoctoral fellow Sietske Bakker, who performed the experiments in Passegué’s lab at the Eli and Edythe Broad Center. International collaborators included Juan Méndez of the Spanish National Cancer Research Center, in Madrid, and Ciaran Morrison of the National University of Ireland, in Galway.
The research was funded by the California Institute for Regenerative Medicine and the National Institutes of Health. Passegué was recognized for the research with a Glenn Award for Research in Biological Mechanisms of Aging.
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