Hey irena,
I see you're still claiming mercury chloride was used in childhood
vaccines, when it never was. That is, after all, what this video used,
thus your title of the thread is untrue. I've told you this before,
which means you're lying about it it now. Here's the abstract straight
from pubmed (note thimerosal isn't used in the abstract):
Leong CC, Syed NI, Lorscheider FL.
Faculty of Medicine, Department of Physiology and Biophysics,
University of Calgary, Alberta, Canada.
Inhalation of mercury va**** (Hg0) inhibits binding of GTP to rat brain
tubulin, thereby inhibiting tubulin polymerization into microtubules.
A similar molecular lesion has also been observed in 80% of brains
from patients with Alzheimer disease (AD) compared to age-matched
controls. However the precise site and mode of action of Hg ions
remain illusive. Therefore, the present study examined whether Hg ions
could affect membrane dynamics of neurite growth cone morphology and
behavior. Since tubulin is a highly conserved cytoskeletal protein in
both vertebrates and invertebrates, we hypothesized that growth cones
from animal species could be highly susceptible to Hg ions. To test
this possibility, the identified, large Pedal A (PeA) neurons from the
central ring ganglia of the snail Lymnoea stagnalis were cultured for
48 h in 2 ml brain conditioned medium (CM). Following neurite
outgrowth, metal chloride solution (2 microl) of Hg, Al, Pb, Cd, or Mn
(10(-7) M) was pressure applied directly onto individual growth cones.
Time-lapse images with inverted microscopy were acquired prior to,
during, and after the metal ion exposure. We demonstrate that Hg ions
markedly disrupted membrane structure and linear growth rates of
imaged neurites in 77% of all nerve growth cones. When growth cones
were stained with antibodies specific for both tubulin and actin, it
was the tubulin/microtubule structure that disintegrated following Hg
exposure. Moreover, some de****d neurites were also observed to form
neurofibrillary aggregates. In contrast, growth cone exposure to other
metal ions did not effect growth cone morphology, nor was their
motility rate compromised. To determine the growth suppressive effects
of Hg ions on neuronal sprouting, cells were cultured either in the
presence or absence of Hg ions. We found that in the presence of Hg
ions, neuronal somata failed to sprout, whereas other metalic ions did
not effect growth patterns of cultured PeA cells. We conclude that
this visual evidence and previous biochemical data strongly implicate
Hg as a potential etiological factor in neurodegeneration.
PMID: 11277574 [PubMed - indexed for MEDLINE]
On Jun 21, 10:24 am, Ilena Rose <B...@[EMAIL PROTECTED]
> wrote:
> Note from Ilena Rosenthal ...
>
> http://ilena-rosenthal.blogspot.com
> Health Lover
>
> Im****tant Videos to counter the Vaccination Lobby Propaganda partially
> headquartere at Barrett's Quack websites and his Health Fraud List.
>
> Mercury In Vaccines Causes Brain Cell
Damagehttp://www.youtube.com/watch?v=J5WNLOjmAiw
>
> By University Of Calgary
> Autism Mercury Video assaulting the brains
> neurotransmittershttp://www.youtube.com/watch?v=85tgwh3HpsM
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