Difference between revisions of "Team:Technion Israel/Project/Overview"
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<p>Hair loss affects roughly 61 million people in the United States. More than 95% of hair thinning in men is attributed to male pattern baldness, or androgenetic alopecia. The hair loss product market is a multi-billion dollar market: in the United States alone, this market’s annual revenue is 7 billion dollars, with 3.5% annual growth rate from 2007 to 2012, yet a sufficient solution has yet to be made available. | <p>Hair loss affects roughly 61 million people in the United States. More than 95% of hair thinning in men is attributed to male pattern baldness, or androgenetic alopecia. The hair loss product market is a multi-billion dollar market: in the United States alone, this market’s annual revenue is 7 billion dollars, with 3.5% annual growth rate from 2007 to 2012, yet a sufficient solution has yet to be made available. | ||
The trigger for androgenetic alopecia is believed to be dihydrotestosterone (DHT), a derivative of testosterone. This summer, we engineered <i>Bacillus subtilis</i>, a bacterium found naturally on the scalp, to secrete 3α-hydroxysteroid dehydrogenase (3α-HSD). This enzyme reduces DHT to a non-steroidically active compound, using NADPH and NADH as cofactors.</p> | The trigger for androgenetic alopecia is believed to be dihydrotestosterone (DHT), a derivative of testosterone. This summer, we engineered <i>Bacillus subtilis</i>, a bacterium found naturally on the scalp, to secrete 3α-hydroxysteroid dehydrogenase (3α-HSD). This enzyme reduces DHT to a non-steroidically active compound, using NADPH and NADH as cofactors.</p> | ||
− | <p>Our project consists of 3 main parts: 3α-HSD secretion by the | + | <p>Our project consists of 3 main parts: 3α-HSD secretion by the <i>Bacillus subtilis</i>, which is a part of the natural microbiome on the scalp, engineered <i>E.coli</i> for NADPH overproduction, and a comb as a tool to create a user-friendly experience. By synchronizing these parts, we hope to be able to show convincing evidence of DHT breakdown, providing a promising platform for treatment of male pattern baldness!</p> |
<h2>Problem</h2> | <h2>Problem</h2> | ||
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<figure><img class="img_center" src="https://static.igem.org/mediawiki/2015/e/e1/Technion_Israel_2015_overview-figure1.jpg"/><figcaption>Figure 1:Androgen metabolism in the human prostate<sup><a href="#fn13" id="ref1">13</a></sup></figcaption></figure> | <figure><img class="img_center" src="https://static.igem.org/mediawiki/2015/e/e1/Technion_Israel_2015_overview-figure1.jpg"/><figcaption>Figure 1:Androgen metabolism in the human prostate<sup><a href="#fn13" id="ref1">13</a></sup></figcaption></figure> | ||
− | <p>3α-HSD exists naturally in human prostate, performing the mentioned reaction<sup><a href="#fn14" id="ref1">14</a></sup>. However, according to previous research, the isoform originated from rat liver has greater specificity to DHT than the human isoform <sup><a href="# | + | <p>3α-HSD exists naturally in human prostate, performing the mentioned reaction<sup><a href="#fn14" id="ref1">14</a></sup>. However, according to previous research, the isoform originated from rat liver has greater specificity to DHT than the human isoform <sup><a href="#fn16" id="ref1">16</a></sup>. Therefore, we chose to use the sequence of <i>AKR1C9</i> for our project. We altered the sequence in order to delete forbidden restriction sites according to the iGEM regulations for BioBricks.</p> |
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<p>An illustration of our proposed solution and project components can be seen in Figure 2.</p> | <p>An illustration of our proposed solution and project components can be seen in Figure 2.</p> | ||
− | <figure><img src="https://static.igem.org/mediawiki/2015/3/3d/Techion_Israel_2015_combined.png" height="550px"/><figcaption>Figure 2:Schematic illustration of project design and | + | <figure><img src="https://static.igem.org/mediawiki/2015/3/3d/Techion_Israel_2015_combined.png" height="550px"/><figcaption>Figure 2: Schematic illustration of the project design, incorporating its main components: <i>Bacillus subtilis</i> (illustrated by the <span style="color: blue">blue</span> bacteria) which secretes 3α-HSD (illustrated by the <span style="color: gold">yellow</span> circles), engineered <i>E.coli</i> (illustrated by the <span style="color: red">red</span> bacteria) for NADPH molecule (illustrated by the <span style="color: green">green</span> circles) overproduction, and a comb as a tool to create a user-friendly experience. </figcaption></figure> |
<p>In order to better focus on the many different components of our project, we split up into groups to tackle each component: Expression of the 3α-HSD enzyme, secretion of the enzyme, and cofactor production. Additionally, a group worked on developing a comb- a tool which could provide a user-friendly solution for the consumer in applying our product to the scalp. For more information about each sub-group, enter the page from the menu above, or visit the links below:</br> | <p>In order to better focus on the many different components of our project, we split up into groups to tackle each component: Expression of the 3α-HSD enzyme, secretion of the enzyme, and cofactor production. Additionally, a group worked on developing a comb- a tool which could provide a user-friendly solution for the consumer in applying our product to the scalp. For more information about each sub-group, enter the page from the menu above, or visit the links below:</br> | ||
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<sup id="fn15">15. Roia, F.C.; Vanderwyk, R., R. W.: Resident Microbial Flora of the Human Scalp and its Relationship to Dandruff. Journal of The Society of Cosmetic Chemists. 1969, 20, 113-134.</sup></br> | <sup id="fn15">15. Roia, F.C.; Vanderwyk, R., R. W.: Resident Microbial Flora of the Human Scalp and its Relationship to Dandruff. Journal of The Society of Cosmetic Chemists. 1969, 20, 113-134.</sup></br> | ||
− | + | <sup id="fn16">16. Penning, T. M., Jin, Y., Heredia, V. V., & Lewis, M. (2003). Structure–function relationships in 3α-hydroxysteroid dehydrogenases: a comparison of the rat and human isoforms. The Journal of steroid biochemistry and molecular biology, 85(2), 247-255.</sup></br> | |
</div> | </div> | ||
Latest revision as of 02:43, 19 September 2015
Project Overview
Our new application of utilizing the human microbiome (genetically modified), is a promising new way to treat male pattern baldness.