Re: regeneration (What is Eurekalert?)

Philos Anthropy (anthropy@inwave.com)
Sun, 15 Feb 1998 22:22:57 -0600


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Please provide the URL for Eurekalert. Thanks. -Bill

Tony B. Csoka wrote:

> Thanks for using NetForward!
> http://www.netforward.com
> v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v
>
> Just found this on Eurekalert:
>
> > Wistar Scientist Invited To Speak On Regeneration At National
> > Meeting Of American Association For The Advancement Of Science
> >
> > Philadelphia -- Ellen Heber-Katz, Ph.D., a professor and immunologist at The Wistar Institute, has been invited to speak at
> > the 165th national meeting of the American Association for the Advancement of Science (AAAS). Her presentation on The
> > Genetics of Tissue Repair and Regeneration in Mice will be one of only seven science topical lectures designed to highlight
> > emerging and innovative research. Prior to her presentation, Dr. Heber-Katz will participate in a 50-minute news briefing
> > with reporters.
> >
> > The AAS meeting and Science Innovation Exposition will be held from February 12-17, 1998 in Philadelphia -- where its
> > first meeting was held 150 years ago. It is the scientific community's most visible forum for increasing the public's
> > understanding of science.
> >
> > Dr. Heber-Katz's presentation will focus on the mouse she and her research team discovered, which is the first potentially
> > useful model for studying epimorphic (limb) regeneration in humans.
> >
> > Until now, it has been possible to study regeneration only in amphibians, which are biologically, genetically and
> > immunologically different from mammals. "Despite those limitations," says Dr. Heber-Katz, "there has been impressive
> > work done by amphibian biologists. They laid out the basic biological road map for the study of regeneration."
> >
> > Dr. Heber-Katz's discovery of the healer mouse occurred five years ago, when her laboratory was using different
> > autoimmune mouse models to study multiple sclerosis. As a way of painlessly and permanently separating one group of
> > immunized mice from the others, Dr. Heber-Katz's staff pierced their ears, a standard laboratory method for identifying
> > groups. Within weeks, however, the holes had closed. The researchers, thinking they had made a mistake, re-pierced their
> > ears. Again, the holes closed with full replacement of the epidermis, dermis and cartilage, and with no evidence of scarring.
> >
> > "At first" explains Dr. Heber-Katz, "it wasn't clear if we had a model for studying wound repair or regeneration, which is a
> > rare form of wound healing in mammals. Since then, however, our findings have made it clear that this is classic epimorphic
> > regeneration. These mice have characteristics, including tail regrowth and rapid liver regeneration, similar to those seen in
> > amphibian tissue regeneration."
> >
> > By crossing mice that are healers with those that are not, Dr. Heber-Katz and her research team are collecting valuable
> > information about the genes involved in regeneration. Thus far, they have identified seven chromosomal regions and isolated
> > several gene products that differ between healers and non-healers.
> >
> > They also have found that, as the healer mice age, they do not regenerate as quickly or as well. Yet, when the researchers
> > use a specific antibody to deplete a subset of T-cells, which are the cells responsible for cell-mediated immunity, the mice
> > heal perfectly.
> >
> > "It is intriguing to speculate," says Dr. Heber-Katz, "that repair of wounds became dominant in mammals with the
> > development of a complex immune system, which was there to protect against tumors. It is known that molecules expressed
> > in regenerating tissue are also expressed in tumors and, for that matter, during mammalian development. In fact, fetal wound
> > healing is scarless and occurs before the development of the T-cell compartment of the immune system."
> >
> > Dr. Heber-Katz expects her findings may ultimately make it possible to promote organ replacement, enhance the healing of
> > chronic wounds, burns and spinal cord injuries, and control tissue growth. Her work is being funded in part by the National
> > Institutes of Health.
> >
> > The Wistar Institute, established in 1892, was the first independent medical research facility in the United States. For more
> > than 100 years, Wistar scientists have been making history and improving world health through their development of
> > vaccines against diseases that include rabies, German measles, infantile gastroenteritis (rotavirus), and cytomegalovirus;
> > discovery of molecules like interleukin-12, which are helping the immune system fight bacteria, parasites, viruses and
> > cancer; and location of genes that contribute to the development of diseases like breast, lung and prostate cancer. Wistar is a
> > National Cancer Institute Cancer Center.
> >
>
> TBC

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Please provide the URL for Eurekalert.  Thanks.  -Bill
 

Tony B. Csoka wrote:

Thanks for using NetForward!
http://www.netforward.com
v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v^v

Just found this on Eurekalert:

> Wistar Scientist Invited To Speak On Regeneration At National
>        Meeting Of American Association For The Advancement Of Science
>
>        Philadelphia -- Ellen Heber-Katz, Ph.D., a professor and immunologist at The Wistar Institute, has been invited to speak at
>        the 165th national meeting of the American Association for the Advancement of Science (AAAS). Her presentation on The
>        Genetics of Tissue Repair and Regeneration in Mice will be one of only seven science topical lectures designed to highlight
>        emerging and innovative research. Prior to her presentation, Dr. Heber-Katz will participate in a 50-minute news briefing
>        with reporters.
>
>        The AAS meeting and Science Innovation Exposition will be held from February 12-17, 1998 in Philadelphia -- where its
>        first meeting was held 150 years ago. It is the scientific community's most visible forum for increasing the public's
>        understanding of science.
>
>        Dr. Heber-Katz's presentation will focus on the mouse she and her research team discovered, which is the first potentially
>        useful model for studying epimorphic (limb) regeneration in humans.
>
>        Until now, it has been possible to study regeneration only in amphibians, which are biologically, genetically and
>        immunologically different from mammals. "Despite those limitations," says Dr. Heber-Katz, "there has been impressive
>        work done by amphibian biologists. They laid out the basic biological road map for the study of regeneration."
>
>        Dr. Heber-Katz's discovery of the healer mouse occurred five years ago, when her laboratory was using different
>        autoimmune mouse models to study multiple sclerosis. As a way of painlessly and permanently separating one group of
>        immunized mice from the others, Dr. Heber-Katz's staff pierced their ears, a standard laboratory method for identifying
>        groups. Within weeks, however, the holes had closed. The researchers, thinking they had made a mistake, re-pierced their
>        ears. Again, the holes closed with full replacement of the epidermis, dermis and cartilage, and with no evidence of scarring.
>
>        "At first" explains Dr. Heber-Katz, "it wasn't clear if we had a model for studying wound repair or regeneration, which is a
>        rare form of wound healing in mammals. Since then, however, our findings have made it clear that this is classic epimorphic
>        regeneration. These mice have characteristics, including tail regrowth and rapid liver regeneration, similar to those seen in
>        amphibian tissue regeneration."
>
>        By crossing mice that are healers with those that are not, Dr. Heber-Katz and her research team are collecting valuable
>        information about the genes involved in regeneration. Thus far, they have identified seven chromosomal regions and isolated
>        several gene products that differ between healers and non-healers.
>
>        They also have found that, as the healer mice age, they do not regenerate as quickly or as well. Yet, when the researchers
>        use a specific antibody to deplete a subset of T-cells, which are the cells responsible for cell-mediated immunity, the mice
>        heal perfectly.
>
>        "It is intriguing to speculate," says Dr. Heber-Katz, "that repair of wounds became dominant in mammals with the
>        development of a complex immune system, which was there to protect against tumors. It is known that molecules expressed
>        in regenerating tissue are also expressed in tumors and, for that matter, during mammalian development. In fact, fetal wound
>        healing is scarless and occurs before the development of the T-cell compartment of the immune system."
>
>        Dr. Heber-Katz expects her findings may ultimately make it possible to promote organ replacement, enhance the healing of
>        chronic wounds, burns and spinal cord injuries, and control tissue growth. Her work is being funded in part by the National
>        Institutes of Health.
>
>        The Wistar Institute, established in 1892, was the first independent medical research facility in the United States. For more
>        than 100 years, Wistar scientists have been making history and improving world health through their development of
>        vaccines against diseases that include rabies, German measles, infantile gastroenteritis (rotavirus), and cytomegalovirus;
>        discovery of molecules like interleukin-12, which are helping the immune system fight bacteria, parasites, viruses and
>        cancer; and location of genes that contribute to the development of diseases like breast, lung and prostate cancer. Wistar is a
>        National Cancer Institute Cancer Center.
>

TBC

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