Case Western Reserve University researchers today published findings that point to a promising discovery for the treatment and prevention of prion diseases, rare neurodegenerative disorders that are always fatal. The researchers discovered that recombinant human prion protein stops the propagation of prions, the infectious pathogens that cause the diseases.
"This is the very first time recombinant protein has been shown to inhibit diseased human prions," said Wen-Quan Zou, MD, PhD, senior author of the study and associate professor of pathology and neurology at Case Western Reserve School of Medicine.
Recombinant human prion protein is generated in E. coli bacteria and it has the same protein sequence as normal human brain protein. But different in that, the recombinant protein lacks attached sugars and lipids. In the study, published online in Scientific Reports, researchers used a method called protein misfolding cyclic amplification which, in a test-tube, mimics the prions' replication within the human brain. The propagation of human prions was completely inhibited when the recombinant protein was added into the test-tube. The researchers found that the inhibition is dose-dependent and highly specific in responding to the human-form of the recombinant protein, as compared to recombinant mouse and bovine prion proteins. They demonstrated that the recombinant protein works not only in the cell-free model but also in cultured cells, which are the first steps of translational research. Further, since the recombinant protein has an identical sequence to the brain protein, the application of the recombinant protein is less likely to cause side effects.
Prion diseases are a group of fatal transmissible brain diseases affecting both humans and animals. Prions are formed through a structural change of a normal prion protein that resides in all humans. Once formed, they continue to recruit other normal prion protein and finally cause spongiform-like damage in the brain. Currently, the diseases have no cure.
Previous outbreaks of mad cow disease and subsequent occurrences of the human form, variant Creutzfeldt–Jakob disease, have garnered a great deal of public attention. The fear of future outbreaks makes the search for successful interventions all the more urgent.
Zou, who also serves as the associate director of the National Prion Disease Pathology Surveillance Center at Case Western Reserve, and collaborators hope to extend their finding using transgenic mice expressing the human prion protein and patient-specific induced pluripotent stem cells (iPSCs)-derived neurons because they are made from human cells, offering an additional level of authenticity. The new animal models were generated in collaboration with Case Western Reserve School of Medicine faculty members, Robert Petersen, PhD, and Qingzhong Kong, PhD, who are the co-authors in this study. Further, patient-specific iPSCs-derived neurons have also just been generated in collaboration with fellow faculty, Paul Tesar, PhD, and Xin Qi, PhD.
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Case Western Reserve University researchers today published findings that point to a promising discovery for the treatment and prevention of prion diseases, rare neurodegenerative disorders that are always fatal. The researchers discovered that recombinant human prion protein stops the propagation of prions, the infectious pathogens that cause the diseases.
"This is the very first time recombinant protein has been shown to inhibit diseased human prions," said Wen-Quan Zou, MD, PhD, senior author of the study and associate professor of pathology and neurology at Case Western Reserve School of Medicine.
Recombinant human prion protein is generated in E. coli bacteria and it has the same protein sequence as normal human brain protein. But different in that, the recombinant protein lacks attached sugars and lipids. In the study, published online in Scientific Reports, researchers used a method called protein misfolding cyclic amplification which, in a test-tube, mimics the prions' replication within the human brain. The propagation of human prions was completely inhibited when the recombinant protein was added into the test-tube. The researchers found that the inhibition is dose-dependent and highly specific in responding to the human-form of the recombinant protein, as compared to recombinant mouse and bovine prion proteins. They demonstrated that the recombinant protein works not only in the cell-free model but also in cultured cells, which are the first steps of translational research. Further, since the recombinant protein has an identical sequence to the brain protein, the application of the recombinant protein is less likely to cause side effects.
Prion diseases are a group of fatal transmissible brain diseases affecting both humans and animals. Prions are formed through a structural change of a normal prion protein that resides in all humans. Once formed, they continue to recruit other normal prion protein and finally cause spongiform-like damage in the brain. Currently, the diseases have no cure.
Previous outbreaks of mad cow disease and subsequent occurrences of the human form, variant Creutzfeldt–Jakob disease, have garnered a great deal of public attention. The fear of future outbreaks makes the search for successful interventions all the more urgent.
Zou, who also serves as the associate director of the National Prion Disease Pathology Surveillance Center at Case Western Reserve, and collaborators hope to extend their finding using transgenic mice expressing the human prion protein and patient-specific induced pluripotent stem cells (iPSCs)-derived neurons because they are made from human cells, offering an additional level of authenticity. The new animal models were generated in collaboration with Case Western Reserve School of Medicine faculty members, Robert Petersen, PhD, and Qingzhong Kong, PhD, who are the co-authors in this study. Further, patient-specific iPSCs-derived neurons have also just been generated in collaboration with fellow faculty, Paul Tesar, PhD, and Xin Qi, PhD.
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A team of researchers from Case Western Reserve University School of Medicine have identified a mechanism that can prevent the normal prion protein from changing its molecular shape into the abnormal form responsible for ...
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Jul 31, 2013
For decades, there has been no answer to the question of why the altered prion protein is poisonous to brain cells. Neuropathologists from the University of Zurich and University Hospital Zurich have now ...
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May 07, 2008
Prions, the infamous agents behind mad cow disease and its human variation, Creutzfeldt-Jakob Disease, also have a helpful side. According to new findings from Gerald Zamponi and colleagues, normally functioning prions prevent ...
The ribosome: A new target for antiprion medicines
Jul 02, 2013
New research results from Uppsala University, Sweden, show that the key to treating neurodegenerative prion diseases such as mad cow disease and Creutzfeldt-Jakob disease may lie in the ribosome, the protein synthesis machinery ...
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Sep 05, 2013
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19 hours ago
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