Scientists hope it may be possible to treat age-related hearing loss by
stimulating the growth of new hair cells in the inner ear.

A US team led by Harvard Medical School has discovered that deletion of
a specific gene can lead to the proliferation of new hair cells.

The loss of hair cells is the most common cause of hearing loss in
older people.

The research is published in the magazine Science.

Hair cells in the cochlea detect sound by vibrating in response to
sound waves, triggering nerve impulses that travel to the auditory
region of the brain.

Normally, humans are born with a complement of about 50,000 hair cells.

But since the cells do not regenerate, the steady rate of hair-cell
loss that can accompany aging produces significant hearing loss in
about a third of the population by the time they reach 70-years-old.

Modern cacophony

Hair cell loss can be caused by disease, certain drugs and the general
cacophony of modern life.

The researchers examined gene activity during the embryonic development
of the inner ear and concluded that there might be a gene that produces
a protein which acts as a permanent brake on hair cell regeneration.

One gene in particular - the retinoblastoma (pRb) gene - seemed to be
particularly active.

Mice bred to lack this gene showed signs of problems with the working
of their inner ear because they had too much hair.

Further examination showed that they had more hair cells than normal
mice - and the cells were actively proliferating.

Tests showed that these cells functioned normally.

The researchers then knocked out the retinoblatoma gene in mature inner
ear cells from mice in the lab - and found that this triggered the
cells to begin proliferating.

Researcher Dr David Corey said: "Deletion of this gene can allow
functioning hair cells to continue to divide.

"They are no longer limited by whatever growth controls existed before.

"This work gives us an invaluable window into the control mechanism,
which could lead to eventual clinical application in regenerating lost
hair cells."

Further work needed

However, Dr Corey warned that more research was needed to refine the
technique.

Simply deactivating the key gene might lead to the uncontrolled cell
growth that can lead to cancer.

The key will be to switch off the gene just long enough to generate
enough hair cells to restore hearing, and then to turn it back on again
to avoid possible complications.

Ralph Holme, biomedical research manager at the charity RNID, said the
findings presented an exciting prospect for millions of people affected
by age-related hearing loss.

"The discovery that deleting the pRb gene 'switches on' the ear's
ability to continue generating hair cells is a significant step towards
the goal of restoring hearing.

"But there are still many problems to solve before this type of
treatment reaches the clinic.

"To prevent excessive proliferation, reversible ways of controlling pRb
activity need to be found.

"Further research is also needed to show that these regenerated hair
cells actually improve hearing following damage to the cochlea.

"The hair cells need to be integrated into the rest of inner ear and
connected to the auditory nerve before they are useful."

It is estimated that over 50 million people in Western Europe and the
USA have age-related hearing loss.

Story from BBC NEWS:
http://news.bbc.co.uk/go/pr/fr/-/2/h...th/4169141.stm
Published: 2005/01/14 01:14:32 GMT

=A9 BBC MMV

Shouldn't it seem that this would be applicable to exposure-related hearing
loss as well as age-related?

"Greg" wrote in message
oups.com...

Scientists hope it may be possible to treat age-related hearing loss by
stimulating the growth of new hair cells in the inner ear.

A US team led by Harvard Medical School has discovered that deletion of
a specific gene can lead to the proliferation of new hair cells.

The loss of hair cells is the most common cause of hearing loss in
older people.

The research is published in the magazine Science.

Hair cells in the cochlea detect sound by vibrating in response to
sound waves, triggering nerve impulses that travel to the auditory
region of the brain.

Normally, humans are born with a complement of about 50,000 hair cells.

But since the cells do not regenerate, the steady rate of hair-cell
loss that can accompany aging produces significant hearing loss in
about a third of the population by the time they reach 70-years-old.

Modern cacophony

Hair cell loss can be caused by disease, certain drugs and the general
cacophony of modern life.

The researchers examined gene activity during the embryonic development
of the inner ear and concluded that there might be a gene that produces
a protein which acts as a permanent brake on hair cell regeneration.

One gene in particular - the retinoblastoma (pRb) gene - seemed to be
particularly active.

Mice bred to lack this gene showed signs of problems with the working
of their inner ear because they had too much hair.

Further examination showed that they had more hair cells than normal
mice - and the cells were actively proliferating.

Tests showed that these cells functioned normally.

The researchers then knocked out the retinoblatoma gene in mature inner
ear cells from mice in the lab - and found that this triggered the
cells to begin proliferating.

Researcher Dr David Corey said: "Deletion of this gene can allow
functioning hair cells to continue to divide.

"They are no longer limited by whatever growth controls existed before.

"This work gives us an invaluable window into the control mechanism,
which could lead to eventual clinical application in regenerating lost
hair cells."

Further work needed

However, Dr Corey warned that more research was needed to refine the
technique.

Simply deactivating the key gene might lead to the uncontrolled cell
growth that can lead to cancer.

The key will be to switch off the gene just long enough to generate
enough hair cells to restore hearing, and then to turn it back on again
to avoid possible complications.

Ralph Holme, biomedical research manager at the charity RNID, said the
findings presented an exciting prospect for millions of people affected
by age-related hearing loss.

"The discovery that deleting the pRb gene 'switches on' the ear's
ability to continue generating hair cells is a significant step towards
the goal of restoring hearing.

"But there are still many problems to solve before this type of
treatment reaches the clinic.

"To prevent excessive proliferation, reversible ways of controlling pRb
activity need to be found.

"Further research is also needed to show that these regenerated hair
cells actually improve hearing following damage to the cochlea.

"The hair cells need to be integrated into the rest of inner ear and
connected to the auditory nerve before they are useful."

It is estimated that over 50 million people in Western Europe and the
USA have age-related hearing loss.

Story from BBC NEWS:
http://news.bbc.co.uk/go/pr/fr/-/2/h...th/4169141.stm
Published: 2005/01/14 01:14:32 GMT

© BBC MMV

"audioguy" wrote in message
nk.net...
Shouldn't it seem that this would be applicable to exposure-related
hearing loss as well as age-related?

Not necessarily as the cause (I believe) is different.

On Mon, 17 Jan 2005 12:05:07 GMT, "Ricky W. Hunt"
wrote:

"audioguy" wrote in message
ink.net...
Shouldn't it seem that this would be applicable to exposure-related
hearing loss as well as age-related?

Not necessarily as the cause (I believe) is different.

AFAIK, the mechanisms are the same. In fact, presbycusis rates vary
with the environmental exposure.

Kal

This would be great indeed, if they can come up with a treatment along
these lines.
Hopefully it will clear up the tinitus as well.
Definitely something to look forward to for us middle aged ex rockers.

what is the original post for this ?( mine started with Hair etc. ) This
sounds like an interesting post.

Sounds like you don't need to roll a big fatty at this juncture.

I wonder if, were this theory to actually work, whether one could actually
end up with, shall we say, "super human" hearing ability. Stopping short
obviously, of growing so many cillia that your ear can't function at all, as
mentioned.

And I suppose a genetic cure for male pattern baldness is not a stretch from
here.

Ching ching! Where do I invest?

"Greg" wrote in message
oups.com...

Scientists hope it may be possible to treat age-related hearing loss by
stimulating the growth of new hair cells in the inner ear.

A US team led by Harvard Medical School has discovered that deletion of
a specific gene can lead to the proliferation of new hair cells.

The loss of hair cells is the most common cause of hearing loss in
older people.

The research is published in the magazine Science.

Hair cells in the cochlea detect sound by vibrating in response to
sound waves, triggering nerve impulses that travel to the auditory
region of the brain.

Normally, humans are born with a complement of about 50,000 hair cells.

But since the cells do not regenerate, the steady rate of hair-cell
loss that can accompany aging produces significant hearing loss in
about a third of the population by the time they reach 70-years-old.

Modern cacophony

Hair cell loss can be caused by disease, certain drugs and the general
cacophony of modern life.

The researchers examined gene activity during the embryonic development
of the inner ear and concluded that there might be a gene that produces
a protein which acts as a permanent brake on hair cell regeneration.

One gene in particular - the retinoblastoma (pRb) gene - seemed to be
particularly active.

Mice bred to lack this gene showed signs of problems with the working
of their inner ear because they had too much hair.

Further examination showed that they had more hair cells than normal
mice - and the cells were actively proliferating.

Tests showed that these cells functioned normally.

The researchers then knocked out the retinoblatoma gene in mature inner
ear cells from mice in the lab - and found that this triggered the
cells to begin proliferating.

Researcher Dr David Corey said: "Deletion of this gene can allow
functioning hair cells to continue to divide.

"They are no longer limited by whatever growth controls existed before.

"This work gives us an invaluable window into the control mechanism,
which could lead to eventual clinical application in regenerating lost
hair cells."

Further work needed

However, Dr Corey warned that more research was needed to refine the
technique.

Simply deactivating the key gene might lead to the uncontrolled cell
growth that can lead to cancer.

The key will be to switch off the gene just long enough to generate
enough hair cells to restore hearing, and then to turn it back on again
to avoid possible complications.

Ralph Holme, biomedical research manager at the charity RNID, said the
findings presented an exciting prospect for millions of people affected
by age-related hearing loss.

"The discovery that deleting the pRb gene 'switches on' the ear's
ability to continue generating hair cells is a significant step towards
the goal of restoring hearing.

"But there are still many problems to solve before this type of
treatment reaches the clinic.

"To prevent excessive proliferation, reversible ways of controlling pRb
activity need to be found.

"Further research is also needed to show that these regenerated hair
cells actually improve hearing following damage to the cochlea.

"The hair cells need to be integrated into the rest of inner ear and
connected to the auditory nerve before they are useful."

It is estimated that over 50 million people in Western Europe and the
USA have age-related hearing loss.

Story from BBC NEWS:
http://news.bbc.co.uk/go/pr/fr/-/2/h...th/4169141.stm
Published: 2005/01/14 01:14:32 GMT

© BBC MMV