Difference between revisions of "Team:SDU-Denmark/Tour72"
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<h2> The peptide aptamer needs </h2> | <h2> The peptide aptamer needs </h2> | ||
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− | <li><span class="intro">an effector mechanism</span> Traditional antibodies have a Fab region, that bind to microbes of which they have specificity. Activation of the immune respons is conducted through their Fc region that interacts with Fc receptors on cell surfaces of lymphocytes and/or other effector cells of the immune system. Such a effector mechanism or something like it have to be attached to the peptide aptamer. | + | <li><span class="intro">an effector mechanism</span> that can either activate the immune system or in some how kill the antigen or cell. Traditional antibodies have a Fab region, that bind to microbes of which they have specificity. Activation of the immune respons is conducted through their Fc region that interacts with Fc receptors on cell surfaces of lymphocytes and/or other effector cells of the immune system. Such a effector mechanism or something like it have to be attached to the peptide aptamer. |
</li> | </li> | ||
− | <li> <span class="intro">The | + | <li> <span class="intro">The peptide aptamer have to be small.</span> The bigger molecule the larger risk of immunogenicity. To avoid an respons from the human immune system it is important that the peptide is as small as possible. If the immune system develops immunization against the peptide aptamer it will not have any function at all. </li> |
− | <li> <span class="intro"> | + | <li> <span class="intro">The half-life should be adjustable.</span> Peptide aptamers targeted at chronic diseases have to have a very long degradation time. </li> |
</ul> | </ul> | ||
Revision as of 20:14, 9 September 2015
Medical aspects
Even though there is no doubt that peptide aptamers are potential rivals of traditional antibodies in medicine and therapy, some hurtles have to be defeated before clinical implementation will be possible.
The peptide aptamer needs
- an effector mechanism that can either activate the immune system or in some how kill the antigen or cell. Traditional antibodies have a Fab region, that bind to microbes of which they have specificity. Activation of the immune respons is conducted through their Fc region that interacts with Fc receptors on cell surfaces of lymphocytes and/or other effector cells of the immune system. Such a effector mechanism or something like it have to be attached to the peptide aptamer.
- The peptide aptamer have to be small. The bigger molecule the larger risk of immunogenicity. To avoid an respons from the human immune system it is important that the peptide is as small as possible. If the immune system develops immunization against the peptide aptamer it will not have any function at all.
- The half-life should be adjustable. Peptide aptamers targeted at chronic diseases have to have a very long degradation time.
How can peptide aptamers treat disease?
- By attaching small gold nanoparticles (sAuNPs) to the peptide aptamer it would be possible to detect the aptamer inside the body and target fx radiotherapi: Recent studies have proved small gold nanoparticles (sAuNPs) as excellent vehicles for drug delivery and cancer therapy. sAuNPs are proven as excellent vehicles especially because of their high biocompatibily, large surface-to-volume ratio and strong diffusivity. Reference: Kim CS, et al. Cellular imaging of endosome entrapped small gold nanoparticles, 2015 Jun 10;2:306-15. doi: 10.1016/j.mex.2015.06.001. (Link)