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Research by Tissera sponsored scientific team at the Weizmann Institute of Science, published in the PNAS, holds hope for treating genetic disease.
Monday January 29, 2007
Herzliya, Israel
 

Tissera, Inc. (OTCBB:TSSR - News) reports that Prof. Yair Reisner and his research team from the Weizmann Institute of Science  published  an article in the December 12, 2006 issue of  PNAS (Proceedings of the National Academy of Sciences) entitled "Correcting Monogenic Diseases by Fetal Spleen Transplantation: Hemophilia as a Proof of Concept". The study may be obtained in PDF form from the PNAS website, www.pnas.org.  The Weizmann Institute of Science press release follows.

 

The team’s research was predominantly supported by Tissera as part of its Research and Development Plan, which  is based on the premise that ways might be found to utilize various porcine fetal tissues for transplantation into human patients in need. The Company's R&D efforts are directed towards developing and commercializing such transplantation technology, which has the potential to provide a universally available and reliable source of transplantable organs and alleviate the current severe shortage of donor organs.

 

Efforts have focused on several applications, such as the use of embryonic pancreas tissue for the treatment of insulin-dependent diabetes mellitus, and liver and spleen for the treatment of monogenic enzymatic deficiencies.

 

The results reported in the recent article mark an important milestone in the implementation of the Company's spleen application development plan and constitute a proof of concept for the possibility of using embryonic pig spleen transplantation to correct disease-causing genetic enzymatic deficiencies.

 

The publication of this study in PNAS constitutes  recognition by an internationally renowned and respected academic authority of the significant scientific value of the cutting-edge work being performed by the Company-sponsored research team at the Weizmann Institute of Science, under the leadership of Prof. Reisner.

 

In keeping with Tissera's work plan, the multi-application research continues to advance, including experiments in pancreatic transplantation on large animal models of insulin-dependent diabetes mellitus in preparation for the initiation of human clinical studies.

 

Weizmann Institute Press Release

 

A Transplant in Time

26.12.2006

Weizmann Institute Scientists demonstrate how tissues transplanted from pig embryos might, in the future, present a solution to genetic diseases

In hemophilia, a mutated gene prevents the production of a critical blood-clotting protein. Treatments for hemophilia and other such genetic diseases, when they exist, may consist of risky blood transfusions or expensive enzyme replacement therapy. But what if the body could be induced to begin producing these proteins, say by transplanting healthy tissue with the abilities that are lacking?

Prof. Yair Reisner and Ph.D. student Anna Aronovich of the Weizmann Institute’s Immunology Department, together with colleagues, showed, in research recently published in the Proceedings of the National Academy of Sciences (PNAS), how such a transplant might, in the future, be made feasible.

Previous attempts to treat genetic disease by transplanting (mother to daughter) a spleen, an organ that can manufacture a number of the missing proteins in some such diseases, had made little headway due to the fact that the spleen is home to the immune system’s T cells – cells responsible for the severe immune responses against the recipient known as graft-versus-host disease (GVHD).

Reisner and his team revived the idea, with a twist. Over the past several years, he and members of his lab have been experimenting with tissue transplanted from pig embryos – a possible substitute for human donor organs. From this, they have learned that for each type of tissue, there is a window of opportunity during which cells taken from the developing embryo can be most successfully transplanted. Tissues taken too early, when they are still fairly undifferentiated, may form tumors, while those taken too late can be identified as foreign, causing the host to reject them.

By taking spleen tissue from embryonic pigs over the course of gestation, they found that the harmful T cells are not present in the tissue prior to day 42 of gestation. The scientists also found that tissue of this age exhibits optimal growth potential as well as secreting factor VIII, the blood-clotting protein missing in hemophilic patients.  Thus, the scientists fixed the ideal time for spleen transplantation at 42 days. Hemophiliac mice with spleen tissue transplanted from pig embryos at this time experienced completely normal blood clotting within a month or two of implantation.

Although a number of problems would need to be surmounted before researchers could begin to think of applying the technique to humans, the Institute team’s experiment is 'proof of principal' – evidence that transplanted embryonic tissue, whether human or pig, could one day help the body to overcome genetic diseases.   

Prof. Reisner’s research receives major funding from Tissera Inc. His work is also supported by the J & R Center for Scientific Research; the Belle S. and Irving E. Meller Center for the Biology of Aging; the Gabrielle Rich Center for Transplantation  Biology Research; the Abisch Frenkel Foundation for the Promotion of Life Sciences; the Loreen Arbus Foundation; the Crown Endowment Fund for Immunological Research; the Mario Negri Institute for Pharmacological Research – Weizmann Institute of Science Exchange Program; the Charles and David Wolfson Charitable Trust; Dr. and Mrs. Leslie Bernstein, Sacramento, CA; and Mr. and Mrs. Barry Reznik, Brooklyn, NY. Prof. Reisner is the incumbent of the Henry H. Drake Professorial Chair in Immunology.

 

The Weizmann Institute of Science in Rehovot, Israel, is one of the world's top-ranking multidisciplinary research institutions. Noted for its wide-ranging exploration of the natural and exact sciences, the Institute is home to 2,500 scientists, students, technicians and supporting staff. Institute research efforts include the search for new ways of fighting disease and hunger, examining leading questions in mathematics and computer science, probing the physics of matter and the universe, creating novel materials and developing new strategies for protecting the environment.

 

Weizmann Institute news releases are posted on the World Wide Web at
http://wis-wander.weizmann.ac.il/, and are also available at http://www.eurekalert.org/.

 

 

About Tissera

Tissera is a biotechnology company dedicated to the development of novel tissue precursor regeneration technologies for treating gene deficiencies and diseases in which organ transplantation is necessary, while minimizing the dosage of immunosuppressive drugs. Tissera obtained the license for the worldwide exclusive rights to the technology developed by Professor Yair Reisner and his team at the Weizmann Institute of Science in Israel. In this research, scientists successfully implanted in mice embryonic human and porcine organ precursor tissues, which grew into functional organs. This research was published in Nature Medicine and attracted worldwide scientific and media attention.

 

About PNAS(Proceedings of the National Academy of Sciences of the United States of America)

PNAS is one of the world's most-cited multidisciplinary scientific serials. Since its establishment in 1914, it continues to publish cutting-edge research reports, commentaries, reviews, perspectives, colloquium papers, and actions of the Academy. Coverage in PNAS spans the biological, physical, and social sciences. PNAS is published weekly in print, and daily online in PNAS Early Edition. www.pnas.org

 

 

Safe Harbor Statement

"Statements in this document that are not purely historical are forward-looking statements. Forward-looking statements in this release include statements regarding our developing technology into a useful product, our moving forward with our plans for trials, and our plans to expand the Company's infrastructure. Actual outcomes and our actual results could differ materially from those in such forward-looking statements. Such statements, including statements regarding freedom to operate, patentability, infringement, clinical trials, involve significant risks and uncertainties and actual results could differ materially from those expressed or implied herein. Factors that could cause such differences include, but are not limited to, risks associated with new product development (including clinical trials outcome and regulatory requirements/actions), competitive risks to marketed products and availability of financing that could cause actual results to differ materially include risks and uncertainties such as the inability to further finance our plans and unforeseen technical difficulties in developing our technology, which could among other things, delay or prevent product development and our planned results. For further risk factors see the Company's 10-KSB filed with the SEC for our latest fiscal year."
 

CONTACT:

 

Tissera Inc.

(Investor Relations)            

Dr. Uri Elmaleh  

uri@tissera.com

+972-52-5716669

 

SOURCE:  Tissera, Inc.

 

 
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