10 replies to this topic

[Nemo888]

http://ucsdnews.ucsd..._disease_in_men

 

Target Identified For Rare Inherited Neurological Disease In Men

 

Scientists show bad androgen receptor impairs body’s ability to dispose of damaged cells

 

Researchers at University of California, San Diego School of Medicine have identified the mechanism by which a rare, inherited neurodegenerative disease causes often crippling muscle weakness in men, in addition to reduced fertility.

The study, published August 10 in the journal Nature Neuroscience, shows that a gene mutation long recognized as a key to the development of Kennedy’s disease impairs the body’s ability to degrade, remove and recycle clumps of “trash” proteins that may otherwise build up on neurons, progressively impairing their ability to control muscle contraction. This mechanism, called autophagy, is akin to a garbage disposal system and is the only way for the body to purge itself of non-working, misshapen trash proteins.

“We’ve known since the mid-1990s that Alzheimer's disease, Parkinson's disease and Huntington's disease are caused by the accumulation of misfolded proteins that should have been degraded, but cannot be turned over,” said senior author Albert La Spada, MD, PhD and professor of pediatrics, cellular and molecular medicine, and neurosciences. “The value of this study is that it identifies a target for halting the progression of protein build-up, not just in this rare disease, but in many other diseases that are associated with impaired autophagy pathway function.”

Of the 400 to 500 men in the U.S. with Kennedy’s disease, the slow but progressive loss of motor function results in about 15 to 20 percent of those with the disease becoming wheel-chair bound during later stages of the disease.

Kennedy’s disease, also known as spinal and bulbar muscular atrophy, is a recessive X-linked disease men inherit from their mother. Women don’t get the disease because they have two copies of the X chromosome. The genetic abnormality causes men to produce a mutant androgen receptor protein, which impairs the body’s sensitivity and response to male sex hormones, sometimes resulting in testicular atrophy and enlargement of male breasts.

In experiments with mice, scientists discovered that the mutant androgen receptor protein besides disrupting male reproductive biology also deactivates a protein called transcription factor EB (TFEB) that is believed to be a master regulator of autophagy in nerve and other cell types.

Specifically, the mutant androgen receptor protein in Kennedy’s disease binds to TFEB and blocks its ability to mediate the break-down and removal of non-working proteins and aggregated proteins.

“Our study tells us that if we can find a way to keep TFEB working, we likely can prevent this disease and others like it from progressing,” La Spada said. “We now have a target for new therapies to treat not only Kennedy's disease, but also many more common neurological disorders.”

Edited by Nemo888, 11 August 2014 - 01:09 PM.

[Nemo888]

Probably came out of some similar research I was very interested in last year.

 

XBP-1 Is a Cell-Nonautonomous Regulator
of Stress Resistance and Longevity
The Howard Hughes Medical Institute, University of California Berkeley, Berkeley, CA 94720, USA

SUMMARY

The ability to ensure proteostasis is critical for maintaining
proper cell function and organismal viability
but is mitigated by aging. We analyzed the role
of the endoplasmic reticulum unfolded protein
response (UPRER) in aging of C. elegans and found
that age-onset loss of ER proteostasis could be
reversed by expression of a constitutively active
form of XBP-1, XBP-1s. Neuronally derived XBP-1s
was sufficient to rescue stress resistance, increase
longevity, and activate the UPRER in distal, nonneuronal
cell types through a cell-nonautonomous
mechanism. Loss of UPRER signaling components
in distal cells blocked cell-nonautonomous signaling
from the nervous system, thereby blocking increased
longevity of the entire animal. Reduction of small
clear vesicle (SCV) release blocked nonautonomous
signaling downstream of xbp-1s, suggesting that
the release of neurotransmitters is required for this
intertissue signaling event. Our findings point toward
a secreted ER stress signal (SERSS) that promotes
ER stress resistance and longevity.

 

DISCUSSION

Cellular processes face an inevitable decline with age, exacerbated
by a lack of evolutionary imperative to maintain proteostasis
beyond early adulthood. Because many of the diseases
associated with ER dysfunction are age onset and because prior
evidence has suggested that the UPRER becomes attenuated in
older organisms, we hypothesized that a restoration of the
UPRER might have a protective effect on the viability of older
animals.
Consistent with this hypothesis, we report that activation of
xbp-1 is lost in an age-dependent manner, leading to a decrease
in ER stress resistance. It is not clear why xbp-1 splicing is lost
with age given that both ire-1 and xbp-1 transcripts are present
in older animals; possible explanations include a failure of the
xbp-1 transcript to localize to the ER or a reduced ability to activate
IRE-1 at the protein level (Arago´ n et al., 2009; Korennykh
et al., 2009). Furthermore, and significantly, the reintroduction
of a single element that declines with age in this system,
xbp-1s, is sufficient to restore ER stress resistance in aged populations.
Neuronal xbp-1s expression activates the UPRER in
distal cells nonautonomously, in a manner dependent upon the
presence of endogenous ire-1 and xbp-1 in the receiving cells.
Intriguingly, we only find nonautonomous UPRER activation
between neurons and the intestine, and only in one direction,
with expression of xbp-1s in the intestine having no apparent
effect on UPRER activation in neurons. It is interesting to note
that in C. elegans, the neurons and intestine are the tissues
most prone to UPRER activation when animals are faced with
ER stress (Shim et al., 2004), and the intestine in particular is
extremely sensitive to perturbations in ER proteostasis (Richardson
et al., 2010, 2011). This communication of ER stress from the
nervous system is required for extension of longevity by neuronal
xbp-1s.
At this time, we do not yet understand the fundamental mechanisms
by which this signal is generated or perceived. We do,
however, find a dependency of nonautonomous signaling on
unc-13, suggesting that one or more small molecules released
from SCVs are required for the signal. UNC-13 function is also
essential for increases in longevity and stress resistance by
neuronal UPRER activation. The fact that either knockdown of
UPRER signaling in distal cells or the abolishment of neuronal
secretion through mutations in unc-13—very different interventions
with different effects on physiology and longevity—can
eliminate lifespan extension by neuronal xbp-1s expression
suggests that cell-nonautonomous UPRER activation plays a
pivotal role in the long lifespan and stress resistance of these
animals.

 

[platypus]

Excellent news, I wonder if candidate molecules for TFEB-activation have already been identified. 

[Nemo888]

Or simply getting the sequence of TFEB, synthesizing it and filling a syringe. These are crippling degenerative diseases. If you have a disease on that list any intervention is worth the risk. If it works it has huge anti aging potential as well. Bioidentical can't be meaningfully patented. We would need to do research on ourselves.

[ceridwen]

Please contact me and let me know if this is possible I'm fading very fast

[Flex]

Please contact me and let me know if this is possible I'm fading very fast

 

 

Here You go :

Extremely low levels of the compound in marijuana known as delta-9-tetrahydrocannabinol, or THC, may slow or halt the progression of Alzheimer’s disease, a recent study from neuroscientists at the University of South Florida shows.

http://neurosciencen...rmacology-1274/

 

Consider also Curcumin/Tumeric for daily intake

 

So no need to kill Your self.....

(As you´ve posted)

 

But You still didnt say what kind of of Dementia You suffer and what the Doc has said to You.

and Your self diagnose thread seems to be somewhat odd

http://www.longecity...ad/#entry653330

 

You are starting to become somehow suspicious to me..

Edited by Flex, 28 August 2014 - 06:27 PM.

[ceridwen]

Well some really strange things are happening here. I went camping this week and taking my tent down I injured my back. I have been walking around like a 90 year old!All the time I have had a hissing noise in my ears. I seem unable to make short term memories. Veryy strange. I'm having an MRI very soon but yes it is very strange and I've lost a massive amount. Of feeling in my body
Marijuana seems to make me worse

[ceridwen]

Physical as well as. Mental deterioration . I t could I suppose be FTD or even a form of accelerated ageing. All I can suggest is the most likely explanation. Anyway I don't think that I can recover. I am trying really hardxc

[niner]

Physical as well as. Mental deterioration . I t could I suppose be FTD or even a form of accelerated ageing. All I can suggest is the most likely explanation. Anyway I don't think that I can recover. I am trying really hardxc

 

ceridwen, how old are you?  Have you talked to a doctor about this?  If so, what do they say?

[Flex]

Sry for being offending.

 

Please keep us updated. Especially for the MRI.

[Hebbeh]

http://www.longecity...t-exotic-drugs/