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Nogo-A inhibition and brain regrowth

nogo brain repair

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#1 abelard lindsay

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Posted 20 March 2013 - 04:19 AM


So nogo-a inhibits neuron growth in adults. Apparently there are nogo-A inhibitors (GSK1223249) that are in clinical trials right now for curing neurodegenerative diseases like ALS and spinal cord injuries and don't seem to have any severe adverse effects in phase 1 trials (http://www.gsk-clini...ound=GSK1223249).

The more optimistic raving seems to think that blocking the nogo receptor 1 gene, which nogo-a is a ligand for, is a way of making old brains young again:

http://news.yale.edu...old-brain-young

Scientists have long known that the young and old brains are very different. Adolescent brains are more malleable or plastic, which allows them to learn languages more quickly than adults and speeds recovery from brain injuries. The comparative rigidity of the adult brain results in part from the function of a single gene that slows the rapid change in synaptic connections between neurons.
By monitoring the synapses in living mice over weeks and months, Yale researchers have identified the key genetic switch for brain maturation a study released March 6 in the journal Neuron. The Nogo Receptor 1 gene is required to suppress high levels of plasticity in the adolescent brain and create the relatively quiescent levels of plasticity in adulthood. In mice without this gene, juvenile levels of brain plasticity persist throughout adulthood. When researchers blocked the function of this gene in old mice, they reset the old brain to adolescent levels of plasticity.


Children being better language learners than adults is actually somewhat controversial...

http://en.wikipedia....riod_hypothesis

Also LTP is increased by restricting NogoA.

http://www.pnas.org/...1/18/1013322108

NogoA restricts synaptic plasticity in the adult hippocampus on a fast time scale
Abstract
Whereas the role of NogoA in limiting axonal fiber growth and regeneration following an injury of the mammalian central nervous system (CNS) is well known, its physiological functions in the mature uninjured CNS are less well characterized. NogoA is mainly expressed by oligodendrocytes, but also by subpopulations of neurons, in particular in plastic regions of the CNS, e.g., in the hippocampus where it is found at synaptic sites. We analyzed synaptic transmission as well as long-term synaptic plasticity (long-term potentiation, LTP) in the presence of function blocking anti-NogoA or anti-Nogo receptor (NgR) antibodies and in NogoA KO mice. Whereas baseline synaptic transmission, short-term plasticity and long-term depression were not affected by either approach, long-term potentiation was significantly increased following NogoA or NgR1 neutralization. Synaptic potentiation thus seems to be restricted by NogoA. Surprisingly, synaptic weakening was not affected by interfering with NogoA signaling. Mechanistically of interest is the observation that by blockade of the GABAA receptors normal synaptic strengthening reoccurred in the absence of NogoA signaling. The present results show a unique role of NogoA expressed in the adult hippocampus in restricting physiological synaptic plasticity on a very fast time scale. NogoA could thus serve as an important negative regulator of functional and structural plasticity in mature neuronal networks.


There's also interest in them as a means of healing spinal cord injuries:

http://www.scienceda...71106122525.htm

To restore fiber-growing ability to the brain and spinal cord, Schwab first prevented NOGO-A from fulfilling its function as an inhibitor of fiber growth and regeneration in laboratory animals. He showed that the anti-NOGO-A antibody allowed fiber tracts of the rats' damaged spinal cords to regenerate partially, thereby restoring some motor function.



Some more stuff about synaptic plasticity and nogo-1, this time from the receptor angle, not the ligand (nogo-a).

http://www.ncbi.nlm....pubmed/23473316

Anatomical plasticity of adult brain is titrated by nogo receptor 1.
Akbik FV, Bhagat SM, Patel PR, Cafferty WB, Strittmatter SM.
Source
Cellular Neuroscience, Neurodegeneration and Repair Program, Departments of Neurology and Neurobiology, Yale University School of Medicine, New Haven, CT 06536, USA.
Abstract
Experience rearranges anatomical connectivity in the brain, but such plasticity is suppressed in adulthood. We examined the turnover of dendritic spines and axonal varicosities in the somatosensory cortex of mice lacking Nogo Receptor 1 (NgR1). Through adolescence, the anatomy and plasticity of ngr1 null mice are indistinguishable from control, but suppression of turnover after age 26 days fails to occur in ngr1-/- mice. Adolescent anatomical plasticity can be restored to 1-year-old mice by conditional deletion of ngr1. Suppression of anatomical dynamics by NgR1 is cell autonomous and is phenocopied by deletion of Nogo-A ligand. Whisker removal deprives the somatosensory cortex of experience-dependent input and reduces dendritic spine turnover in adult ngr1-/- mice to control levels, while an acutely enriched environment increases dendritic spine dynamics in control mice to the level of ngr1-/- mice in a standard environment. Thus, NgR1 determines the low set point for synaptic turnover in adult cerebral cortex.


So are there any supplements or whatever that can inhibit nogo-a? Well here some Chinese supplement hype:

http://www.ncbi.nlm....pubmed/20473744

Research on the mechanism of Zuogui Pill and Yougui Pill in promoting axonal regeneration in model rats of autoimmune encephalomyelitis.
....
The expression of NGF was even stronger during the remission stage, and a better effect was shown by YGP. As for Nogo A and Ng R expressions, they were significantly lower than those in the model group at the acute stage (P<0.05), but a better effect was shown by ZGP.
CONCLUSIONS:
ZGP and YGP can prevent axonal injury and promote the axonal regeneration in rats of EAE, and the possible mechanism is to increase the expression of NGF and reduce the expression of Nogo A and its receptor. However, some differences are observed between the two Chinese preparations in their acting times and points, which provides a certain basis for revealing the modern connotation of the Chinese medicine theory on tonifying Shen ()-yin and Shen-yang.


Here's the yougui pill
http://www.foodbub.c...Yougui-Pill.htm

[Common Name]Yougui Pill
[Ingredients]Radix Rehmanniae Preparata,Chuan Radix Aconiti Lateralis Preparata, Cinnamon, Yam, Cornus Officinalis, China Dodder, Colla Cornus Cervi, Barbary Wolfberry Fruit, Angelica, Lotus Seeds;


and the zougui pill
http://www.foodbub.c...Zuogui-Pill.htm

[Common Name]Zuogui Pill
[Ingredients]Radix Rehmanniae Preparata, Barbary Wolfberry Fruit, Yam, Cornus Officinalis, China Dodder, Colla Cornus Cervi, Chinemys reevesii, Chuan Achyranthes;



More in a bit...

Edited by abelard lindsay, 20 March 2013 - 04:34 AM.

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#2 tunt01

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Posted 20 March 2013 - 05:32 AM

cancer risk?
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#3 noot_in_the_sky

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Posted 20 March 2013 - 06:40 PM

Interesting findings :)

#4 Rior

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Posted 21 March 2013 - 01:30 AM

I like this thread. I want to see where this goes, I would be interested in seeing if anyone has tried the yougui or zougui supplements.

#5 spermidine

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Posted 21 March 2013 - 06:03 AM

what is yougui or zougui supplements ? is there other non research compounds to effect this nogo a ?

#6 kevinseven11

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Posted 21 March 2013 - 10:41 PM

http://www.selleckch...dil-HCl(HA-1077).html
This compound is very interesting. PK Inhibitor and a Nogo inhibitor.

#7 spermidine

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Posted 22 March 2013 - 01:07 AM

The page you are looking for is no longer existing
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#8 abelard lindsay

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Posted 22 March 2013 - 04:27 AM

http://www.selleckch...dil-HCl(HA-1077).html
This compound is very interesting. PK Inhibitor and a Nogo inhibitor.

Fixed Link:
http://www.selleckch...l(HA-1077).html

So here's the nogo-a inhibition study:
http://www.ncbi.nlm....pubmed/22180032

Histopathological damage was reduced in NEP1-40 and fasudil groups compared with the untreated HIBD group. The expression of Nogo-A in the HIBD group was significantly higher than that in control, NEP1-40 and fasudil groups at the same times. Compared with the fasudil group, the expression levels of Nogo-A were significantly reduced in the NEP1-40 group. We conclude that NPE1-40 and fasudil have potential for neuroprotective effects in the neonatal rat HIBD model, mediated by inhibiting Nogo-A/ Rho pathways.


it's also a vassodialator.

http://www.ncbi.nlm....pubmed/23353807

One h after intratracheal instillation of liposomal fasudil, mean pulmonary arterial pressure (MPAP) was reduced by 37.6±5.7% and continued to decrease for about 3h, suggesting that liposomal formulations produced pulmonary preferential vasodilation in MCT induced PAH rats. Overall, this study established the proof-of-principle that aerosolized liposomal fasudil is a feasible option for a non-invasive, controlled release and pulmonary preferential treatment of PAH.



and it improved learning and memory in mice!
http://www.ncbi.nlm....pubmed/19170447


Previously, utilizing a series of genome-wide association, brain imaging, and gene expression studies we implicated the KIBRA gene and the RhoA/ROCK pathway in hippocampal-mediated human memory. Here we show that peripheral administration of the ROCK inhibitor hydroxyfasudil improves spatial learning and working memory in the rodent model. This study supports the action of ROCK on learning and memory, suggests the potential value of ROCK inhibition for the promotion of cognition in humans, and highlights the powerful potential of unbiased genome-wide association studies to inform potential novel uses for existing pharmaceuticals.


The figures on that study are seriously impressive. It looks like fassodil had a very significant effect on the mice.

There is also interest in re-purposing it as a treatment for parkinsons disease:
https://www.michaelj...hp?grant_id=855


Looks like interesting stuff.. The wikipedia page seems to focus on its capability as a vassodialator so maybe its nootropic action works like Hydergine, which is a peripheral vassodialator.

Edited by abelard lindsay, 22 March 2013 - 04:32 AM.

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#9 Raza

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Posted 22 March 2013 - 09:43 AM

Interesting, thanks for digging this up.

Following this thread.

#10 spermidine

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Posted 23 March 2013 - 02:12 AM

are you guys all talking about this compound; http://en.wikipedia.org/wiki/Fasudil

it doesnt seem to be widely available yet and its research chem. as if anyone would spend the money to risk

#11 abelard lindsay

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Posted 24 March 2013 - 02:59 AM

Seems Alpha-Tocopherol (a form of vitamin E) has some Nogo-A inhibition activity.

http://www.ncbi.nlm....pubmed/23207171

We injected 600 mg/kg α-tocopherol intraperitoneally daily....

Our data demonstrate that α-tocopherol-treated rats had reduced microscopic evidence of brain damage. Alpha-tocopherol reducedNogo-A and NgR expression in brain tissue after traumatic brain injury and promoted nerve regeneration. Alpha-tocopherol treatment of TBI rats had a neuroprotective role in their recovery.


600mg/kg vitamin e? Wow that's a lot!
http://en.wikipedia....ernational_unit

  • Vitamin E: 1 IU is the biological equivalent of about 0.667 mg d-alpha-tocopherol (2/3 mg exactly), or of 0.45 mg of dl-alpha-tocopherol acetate.[7][8]


So for 100kg person we've got 60g or about 90,000 IU. Which is clearly ridiculous considering your average pill is 400IU :laugh: . Please don't be dumb and take this much vitamin E!

But which Alpha-Tocopherol? Seems there are a lot of different forms:

http://lpi.oregonsta.../ss01/attp.html

Millions of Americans use vitamin E supplements. Most vitamin E supplements contain synthetic alpha-tocopherol, but unlike other vitamins, synthetic vitamin E is not identical to natural. Alpha-tocopherol (alpha-tocopherol) is present in nature in only one form, RRR-alpha-tocopherol. The chemical synthesis of alpha-tocopherol results in eight different forms, only one of which is RRR-alpha-tocopherol. Chemically synthesized vitamin E is known as all rac-alpha-tocopherol. These forms differ in that they can be “right” or “left” (R or S) at three different places in the alpha-tocopherol molecule. The most important place is what’s known as the 2-position—half of the synthetic is 2R and half is 2S (see diagram).

To add to the confusion, vitamin E supplements are labeled d-alpha for natural and dl-alpha for synthetic. To study how the body uses natural or synthetic vitamin E, we used chemically labeled forms containing deuterium as tracers. Deuterium is a stable, non-radioactive isotope of hydrogen that is used as a chemical tracer to study chemical reactions and the movement and deposition of chemicals in the body. When we fed equal amounts of deuterium-labeled natural and synthetic vitamin E to humans, both plasma and tissues subsequently contained twice as much natural as synthetic vitamin E. This difference is thought to arise from differences of the affinity of the hepatic alpha-tocopherol transfer protein (alpha-TTP) for the various forms, with a preference for the 2R-alpha-tocopherol forms.


Hmm.. If we look on Amazon there are a rather wide variety of Vitamin E types, for sale etc... Hmm... Which one has the right alpha-tocopherol? I wonder if "Mixed Tocopherols" would provide the right one?

http://en.wikipedia....xed_tocopherols

Mixed tocopherols
"Mixed tocopherols" in the US contain at least 20% w/w other natural R, R,R- tocopherols, i.e. R, R,R-alpha-tocopherol content plus at least 25% R, R,R-beta-, R, R,R-gamma-, R, R,R-delta-tocopherols.[citation needed]


Interesting forum postings on lef about vitamin e megadosing.

http://forum.lef.org...px?f=35&m=29268

The main problem seems to be blood thinning and increased cancer risk (http://www.ncbi.nlm....pubmed/21990298).


Anyway.. Wouldn't try this yet.. Still need some more research.

Edited by abelard lindsay, 24 March 2013 - 03:46 AM.


#12 Erebus

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Posted 24 March 2013 - 05:16 AM

Seems Alpha-Tocopherol (a form of vitamin E) has some Nogo-A inhibition activity.

http://www.ncbi.nlm....pubmed/23207171

We injected 600 mg/kg α-tocopherol intraperitoneally daily....

Our data demonstrate that α-tocopherol-treated rats had reduced microscopic evidence of brain damage. Alpha-tocopherol reducedNogo-A and NgR expression in brain tissue after traumatic brain injury and promoted nerve regeneration. Alpha-tocopherol treatment of TBI rats had a neuroprotective role in their recovery.


600mg/kg vitamin e? Wow that's a lot!
http://en.wikipedia....ernational_unit

  • Vitamin E: 1 IU is the biological equivalent of about 0.667 mg d-alpha-tocopherol (2/3 mg exactly), or of 0.45 mg of dl-alpha-tocopherol acetate.[7][8]


So for 100kg person we've got 60g or about 90,000 IU. Which is clearly ridiculous considering your average pill is 400IU :laugh: . Please don't be dumb and take this much vitamin E!



Translating the dose, 600mg/kg in rats is roughly equivalent to 95mg/kg in humans -- thus around 9.5g for a 100kg person. Still a tremendous mega-dose, but not quite as bad.

I think that NOW Foods sells a pure D-α-tocopherol supplement. (In 400IU capsules.) But I agree that it would be a bad idea to try and recreate the study's conditions with it. ;)

#13 Rior

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Posted 03 April 2013 - 01:33 AM

I'd be interested in what a regular human-dose of Fasudil would be. That way, we could perhaps gauge how much it would really cost. Not that I'd particularly think it's safe to just take it off the bat and see what happens...but, kind of... Haha. I'm pretty interested in the idea of Nogo-A inhibition.

#14 Erebus

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Posted 03 April 2013 - 08:44 AM

I'd be interested in what a regular human-dose of Fasudil would be. That way, we could perhaps gauge how much it would really cost. Not that I'd particularly think it's safe to just take it off the bat and see what happens...but, kind of... Haha. I'm pretty interested in the idea of Nogo-A inhibition.


In the rat study which was quoted earlier, they gave neonatal rats (17-18 grams in weight -- very tiny) i.p. injections at 10mg/kg/day. Due to the method of administration combined with the age and state of those rats, it's very tough (read: impossible) to accurately approximate a human dose. Taking metabolic differences into consideration, and ignoring the other factors entirely, you're probably looking at something in the ballpark of 800mcg/kg -- so ~65mg for an 80kg human.

Caveat emptor: Fasudil had a 'mixed' effect on Nogo-A -- at times increasing expression, and at times decreasing it. In general & on the whole, it tended to increase Nogo-A mRNA expression; Nogo-A mRNA levels were higher in the Fasudil group than they were in the control group.

...In any case, the study made it quite clear that NEP1-40 was the superior Nogo-A inhibitor. It was also extremely potent. (NEP1-40 -- unfortunately a rather complicated peptide -- was injected at 12.5 micrograms per kg per day.)

#15 Joe Cohen

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Posted 26 June 2013 - 06:07 AM

I found this forum after I had read the science daily article. I wrote a post on this. Rehmannia or more specifically catalpol is my nogo inhibitor of choice,.. I posted on my blog about this topic.
(If this is self promotion I will repost without the link to my blog. I just feel like this is highly apropos to the thread.)
http://selfhacked.wo...-single-switch/

Edited by Joe Cohen, 26 June 2013 - 06:22 AM.

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#16 fiber_bundle

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Posted 17 April 2015 - 02:01 PM

Been taking Catalpol, 50mg/day. It's crazy!



#17 renfr

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Posted 17 April 2015 - 06:37 PM

Can you explain? What do you mean by crazy?

#18 normalizing

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Posted 18 April 2015 - 03:21 AM

as far as i know, catalpol is never sold singularly without being part of a main herb. this kid must have brought some new bath salts online.


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#19 fiber_bundle

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Posted 18 April 2015 - 06:57 AM

as far as i know, catalpol is never sold singularly without being part of a main herb. this kid must have brought some new bath salts online.

 

Well, then you know very little. Where did you look it up, Amazon? lol. Unprocessed Rehmannia contains about 4-11% Catalpol; the extraction/purification procedure is very simple and high purity Catalpol is used very widely in some parts of the world for a gamut of health concerns. It's expensive though, unless....


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#20 fiber_bundle

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Posted 18 April 2015 - 07:02 AM

Can you explain? What do you mean by crazy?

I was actually quite surprised and excited to see a Longecity post about this. I'll post my detailed experiences and explain what I mean by "crazy" soon. Will through in some objective tests too if there's interest


Edited by fiber_bundle, 18 April 2015 - 07:03 AM.

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#21 Logic

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Posted 18 April 2015 - 09:48 PM

 

as far as i know, catalpol is never sold singularly without being part of a main herb. this kid must have brought some new bath salts online.

 

Well, then you know very little. Where did you look it up, Amazon? lol. Unprocessed Rehmannia contains about 4-11% Catalpol; the extraction/purification procedure is very simple and high purity Catalpol is used very widely in some parts of the world for a gamut of health concerns. It's expensive though, unless....

 

 

Sonicate 1 g of USP Rehmannia glutinosa Root Powder RS in 5 mL ethanol for 15 min, centrifuge, and use the supernatant?

 

https://hmc.usp.org/...tinosa-root-0-1



#22 normalizing

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Posted 19 April 2015 - 06:10 AM

 

Can you explain? What do you mean by crazy?

I was actually quite surprised and excited to see a Longecity post about this. I'll post my detailed experiences and explain what I mean by "crazy" soon. Will through in some objective tests too if there's interest

 

 

you could have instead mention few things in few words that you have experienced, but you wish to make it suspensful. i wonder if its the catalpol giving you a sense of making it hitchcock suspense...


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#23 fiber_bundle

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Posted 19 April 2015 - 08:05 AM

 

 

as far as i know, catalpol is never sold singularly without being part of a main herb. this kid must have brought some new bath salts online.

 

Well, then you know very little. Where did you look it up, Amazon? lol. Unprocessed Rehmannia contains about 4-11% Catalpol; the extraction/purification procedure is very simple and high purity Catalpol is used very widely in some parts of the world for a gamut of health concerns. It's expensive though, unless....

 

 

Sonicate 1 g of USP Rehmannia glutinosa Root Powder RS in 5 mL ethanol for 15 min, centrifuge, and use the supernatant?

 

https://hmc.usp.org/...tinosa-root-0-1

 

 

Yes, for instance. Though, I don´t know what´s the spec they are going for.

 


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#24 Logic

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Posted 19 April 2015 - 08:19 AM

 

 

 

as far as i know, catalpol is never sold singularly without being part of a main herb. this kid must have brought some new bath salts online.

 

Well, then you know very little. Where did you look it up, Amazon? lol. Unprocessed Rehmannia contains about 4-11% Catalpol; the extraction/purification procedure is very simple and high purity Catalpol is used very widely in some parts of the world for a gamut of health concerns. It's expensive though, unless....

 

 

Sonicate 1 g of USP Rehmannia glutinosa Root Powder RS in 5 mL ethanol for 15 min, centrifuge, and use the supernatant?

 

https://hmc.usp.org/...tinosa-root-0-1

 

 

Yes, for instance. Though, I don´t know what´s the spec they are going for.

 

 

 

thx.

Do tell what your method is!?  :)



#25 normalizing

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Posted 20 April 2015 - 08:04 AM

his method, playing games!


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#26 fiber_bundle

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Posted 04 May 2015 - 09:01 AM

Although my Catalpol experience has been positive; after having read some more papers and now knowing considerably more about NOGO, I have ceased my Catalpol use. It was primarily because of this paper,

 

http://www.ncbi.nlm....les/PMC3957197/

 

 


Edited by fiber_bundle, 04 May 2015 - 09:03 AM.

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#27 Flex

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Posted 21 July 2015 - 09:27 PM

Found the following to inhibit nogo:

 

- Icariin from horny goat weed aka Ying Yang Huo

Inhibitory effect of icariin on expression of myelin inhibitory factors in the central nervous system of rats with focal cerebral ischemia

http://www.scholarma...=,16,zh_cn.html

 

- Korean Ginseng and Notoginseng

Treatment with ginseng total saponins improves the neurorestoration of rat after traumatic brain injury.

http://www.ncbi.nlm....pubmed/25046825

 

Panax notoginseng saponins promotes stroke recovery by influencing expression of Nogo-A, NgR and p75NGF, in vitro and in vivo.

http://www.ncbi.nlm....pubmed/24818251

 

- and, among other, modified “Shengyu” decoction, which consists of the common herbs:

Sheng Yu Decoction Shèng Yù Tang;

SYD Radix Rehmanniae (raw) (Shēng Dì Huáng), Radix Rehmanniae Preparata (Shóu Dì Huáng), Rhizoma Chuanxiong (Chuān Xiōng), Radix Ginseng (Rén Shēn), Radix Angelicae Sinensis ( Dāng Guī),

and Radix Astragali membranaceus (Huáng Qí)

 

Unique Mechanisms of Sheng Yu Decoction on Ischemic Stroke Mice Revealed by an Integrated Neurofunctional and Transcriptome Analysis

http://www.ncbi.nlm....les/PMC3925003/

 

PMC3925003

 

Btw:

 

modified "Shengyu" decoction (MSD)

 

Results

We found that treatment with MSD in TBI rats ameliorated the neurological functions and alleviated neuronal loss.

MSD treatment elevated the expression of GDNF, NGF, NCAM, and TN-C, and inhibited the expression of Nogo-A.

Moreover, MSD treatment increased the number of GFAP+/GDNF+, BrdU+/nestin+, and BrdU+/NeuN+ immunoreactive cells in the cortex and hippocampus.

 

Improvement in the neural stem cell proliferation in rats treated with modified “Shengyu” decoction may contribute to the neurorestoration

http://www.sciencedi...378874115001166


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#28 Dominicus

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Posted 23 July 2015 - 03:32 AM

Although my Catalpol experience has been positive; after having read some more papers and now knowing considerably more about NOGO, I have ceased my Catalpol use. It was primarily because of this paper,

 

http://www.ncbi.nlm....les/PMC3957197/

may i ask of your catalpol source?

 

thanks



#29 BieraK

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Posted 25 July 2015 - 11:29 PM

J Neurosci Res. 2015 Aug;93(8):1215-28. doi: 10.1002/jnr.23573. Epub 2015 Feb 20.
Histone acetylation inhibitors promote axon growth in adult dorsal root ganglia neurons.
Abstract

Intrinsic mechanisms that guide damaged axons to regenerate following spinal cord injury remain poorly understood. Manipulation of posttranslational modifications of key proteins in mature neurons could reinvigorate growth machinery after injury. One such modification is acetylation, a reversible process controlled by two enzyme families, the histone deacetylases (HDACs) and the histone acetyl transferases (HATs), acting in opposition. Whereas acetylated histones in the nucleus are associated with upregulation of growth-promoting genes, deacetylated tubulin in the axoplasm is associated with more labile microtubules, conducive to axon growth. This study investigates the effects of HAT and HDAC inhibitors on culturedadult dorsal root ganglia (DRG) neurons and shows that inhibition of HATs by anacardic acid or CPTH2 improves axon outgrowth, whereas inhibition of HDACs by TSA or tubacin inhibits axon growth. Anacardic acid increased the number of axons able to cross an inhibitory chondroitin sulfate proteoglycan border. Histone acetylation but not tubulin acetylation level was affected by HAT inhibitors, whereas tubulin acetylation levels were increased in the presence of the HDAC inhibitor tubacin. Although the microtubule-stabilizing drug taxol did not have an effect on the lengths of DRG axons, nocodazole decreased axon lengths. Determining the mechanistic basis will require future studies, but this study shows that inhibitors of HAT can augment axon growth in adult DRG neurons, with the potential of aiding axon growth over inhibitory substrates produced by the glial scar. © 2015 Wiley Periodicals, Inc.

 



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#30 BieraK

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Posted 28 July 2015 - 06:41 AM

This other study looks interesting:
http://ijnp.oxfordjo...pyu047.full.pdf

Cellular and molecular mechanisms of action of transcranial direct current stimulation: evidence from in vitro and in vivo models

 

In vivo, daily tDCS over a period of two weeks following ischemia in rats increases spine density in the remaining cells at the infarct site, which is further accompanied by improved motor function (Jiang et al., 2012). In addition, upregulation of MAP-2, a critical protein in dendritic outgrowth and remodelling, and GAP-43, a protein found in axonal growth cones, further support this specific effect of tDCS on dendritic as well as axonal regrowth following tDCS (Yoon et al., 2012). GAP-43 expression is also raised following low intensity DCEF stimulation of differentiated neurons in vitro (S.J. Pelletier, M. Lagacé, I. St-Amour, D. Arsenault, G. Cisbani, A. Chabrat, S. Fecteau, M. Lévesque and F. Cicchetti, unpublished observations) and when a cathodal stimulating electrode delivering a weak DCS is implanted into the hemi-lesioned spine of guinea pigs, there is increased axonal regrowth which further leads to the recovery of the cutaneous trunci muscle reflex created by this type of lesion (Borgens et al., 1987, 1990). These induced axons are also able to grow through the glial scar, something which is not observed in sham lesions

Edited by BieraK, 28 July 2015 - 06:41 AM.






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