LEFT: DAVID ZENTZ. RIGHT: STEVE ZYLIUS/UC-IRVINE COMMUNICATIONSact like embryonic stem cells. Researchers called them
induced pluripotent cells, which are created by enticing
cells to turn on genes normally found in embryonic
stem cells. This process endows them with pluripotency,
or the ability to become any type of cell, including
neural stem cells. Just two years earlier, in 2004, Cali-
fornia voters bucked the White House and approved
Proposition 71, establishing the California Institute
for Regenerative Medicine. By 2006, the organization
issued its first batch of funding from the $3 billion war
chest the legislation allocated. With those two develop-
ments, research sputtered back to life.
Scientists then began to grapple with some funda-
mental issues. For starters, how could researchers turn
stem cells into mature cell types? Was there a chemical
or genetic signal that induced stem cells to create the
complex structures of the body and brain? And which
molecules and mechanisms were required to integrate
stem cells into an injured brain?
Figuring out the answers proved daunting. Over the
past decade, however, scientists have begun to decipher
how neurogenesis occurs and the anatomical location
where neural stem cells are born and maintained inside
the brain. “We now have the ability to culture and
isolate stem cells in a much more elegant and sophisti-
cated way,” says Gary Steinberg, a stem cell researcher
who heads the neurosurgery department at Stanford
University. “We now know much more about how the
cells work and how they best become integrated into
the circuits in the brain.”DARKNESS TO LIGHT
“It was like someone was turning the lights on,” recalls
Kristin Macdonald, a 60-year-old from Beverly Hills,
Calif. Macdonald has retinitis pigmentosa, a genetic
disorder that causes a gradual decay of the photore-
ceptors — the rods and cones — in the retina. This thin
layer of tissue at the back of the eye detects light and
then converts it into nerve impulses that travel to the
brain’s vision centers to form images. As the rods and
cones die off, people with the disorder experience night
blindness and tunnel vision, and eventually become
legally or totally blind.
A gracious blonde with a dazzling smile, Macdonald
started losing her sight in her late 20s and was legally
blind by her 40s. In June 2015, she became the first
patient in North America to receive an eye injection
of about half a million retinal progenitor cells. The
aim was to repair and possibly replace damaged light-
sensing cells.
In the time since her treatment, she has noticed a
decided change. She can discern shapes and the faint
hue of colors, enabling her to recognize cars parkedKristin Macdonald experienced improved vision after
a 2015 procedure to treat a degenerative eye condition.Henry Klassen, a UC-Irvine ophthalmologist, is director
of a stem cell clinical project that included Macdonald.