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Dec 17, 2007 8:31 | Updated Dec 17, 2007 8:47
Israelis join exclusive science club
By JUDY SIEGEL-ITZKOVICH

Tel Aviv University has hit the jackpot, with three of its scientists
included in the list of 50 of the world's leading innovators in the coming
issue of one of the world's leading science magazines, Scientific American.

From left: Prof. Eshel Ben-Jacob, Dr. Itay Baruchi, Prof. Beka Solomon
Photo: Courtesy

Prof. Eshel Ben-Jacob of TAU's faculty of exact sciences and his research
assistant Dr. Itay Baruchi were chosen for their innovative work in brain
research and their success in creating a memory- and information-processing
neurochip made of living neurons. Ben-Jacob told The Jerusalem Post he was
very happy his and Baruchi's work was being recognized, especially since
when he first sent an article on it for publication to the prestigious
journal Nature along with recommendations from three Nobel Prize laureates,
it was rejected on the grounds of "not being of general interest." However,
last spring, it was published in the American Physical Society's journal
Physical Review.

Prof. Beka Solomon was selected for the development of a novel therapeutic
approach in the form of an experimental nasal spray for treatment of
Alzheimer's disease, based on friendly bacterial viruses that are able to
overcome the drawbacks of other ongoing approaches.

The Israeli edition of Scientific American, produced by ORT-Israel, is due
to publish the list in February, but it isn't known whether the Arabic
version published in Kuwait will choose to omit the Israeli achievement.

This is the sixth year that the journal's board of editors has selected the
50 top innovators. No other Israelis were included in the 2008 list, and
only two Israelis were previously on the list; they were Dr. Shulamit
Levenberg of the Technion (2006), Prof. Ehud Shapira of the Weizmann
Institute of Science (2006) and Prof. Micha Asher of the Hebrew University
(2004).

Each year, the board of editors reviews the work of individuals, teams,
companies and other organizations with outstanding accomplishments in
research, business or policymaking. The winners, who receive worldwide honor
but no financial prize, are cited for their contributions to areas such as
biotechnology, microelectronics, energy and genetics. Winners over the past
several years have included former US vice president Al Gore (2006 Policy
Leader of the Year); Google founders Larry Page and Sergey Brin (sharing the
distinction of 2005 Business Leader of the Year); and Nobel prize-winning
Rockefeller neurobiologist Prof. Roderick MacKinnon (2003 Research Leader of
the Year).
Ben-Jacob and Baruchi have succeeded in creating for the first time a
neurochip made of living neuron networks that stores memory and processes
information.

Their scientific achievement presents a conceptual breakthrough in
approaching learning brain processes and paves the way for a technological
revolution of building robots that integrate computers and neurochips. Their
experiment comprised local nanometric injections of a certain chemical onto
a neuronal network they grew in a dish, with the injection sites determined
through real-time analysis of the network activity. The chemical stimulation
evoked a new firing pattern, which repeated again and again as a persisting
memory.

While some wonder if the brain is a fantastic computer, Ben-Jacob says it is
not: "Computers have neither cognitive abilities nor the required
plasticity - they are fixed." To plasticize a "computer brain," he hopes
eventually to connect it to neural networks and create a biological computer
that would be an evolvable system. Given a task, such a system would learn,
evolve and improve itself via dialog between the computer and networks to
perfect its task performance. The network will perform the cognitive part,
of interaction with the environment, sound and picture recognition and
decision-making. Baruchi thinks this is the key to technological advances
such as handwriting recognition, on which Microsoft has been working
intensively but with only partial success.

The ability to imprint memory templates in artificial networks of brain
cells could yield a variety of technologies. The team believes that in the
foreseeable future, it may be possible to treat neurological disorders such
as Alzheimer's and Parkinson's diseases. Later, Ben-Jacob believes, stem
cells could be added to neural networks and adapted to specific functions by
applying appropriate stimuli. Even further ahead, he hopes it will be
possible to treat epilepsy by feeding the disordered brain activity to a
biological computer, which will analyze it, identify the faults and feed
corrected patterns of electrical stimuli back into the sick brain.

Solomon of TAU's life sciences faculty has targeted Alzheimer's, a
degenerative brain disease causing progressive loss of memory and cognitive
functions, the pathology of which is characterized primarily by
extracellular plaques and intracellular neurofibrillary tangles. She and her
team have developed a new therapeutic approach for Alzheimer's based on
filamentous bacterial viruses (phages) that are friendly to the environment
and to human beings. Bacteriophages are the most numerous life forms on
earth. Mammalian organisms are frequently exposed to interactions with
bacteriophages, and this natural contact is not incidental, but rather
constant and intensive.

Experiments conducted in mice models of Alzheimer's showed therapeutic
benefits of phage treatment and demonstrated that the linear structure
confers permeability to the brain and dissolves beta-amyloid plaques, thus
restoring cognitive functions. The therapeutic potential of phage therapy
stems from the fact that it does not affect mammalian cells and therefore
results in no adverse effects. Moreover, phage therapy may overcome some of
the drawbacks of current immunotherapy approaches, such as hemorrhages and
inflammation. This is the first attempt to use filamentous bacterial viruses
as a therapeutic agent for treatment of a mouse model of Alzheimer's disease
and other degenerative brain diseases induced by accumulation of amyloid
aggregates. As the world's population ages, dementia diseases like
Alzheimer's threaten to reach epidemic proportions.

Rayilyn Brown
Board Member AZNPF
Arizona Chapter National Parkinson's Foundation
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