Team:Paris Bettencourt/Project/TMAU

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(C) Mutations in the <i>FMO3</i> gene can cause the loss of the function of the enzyme. In these patients, trimethylamine is excreted into sweat, urine and breath, causing a strong fish odor.</p>
(C) Mutations in the <i>FMO3</i> gene can cause the loss of the function of the enzyme. In these patients, trimethylamine is excreted into sweat, urine and breath, causing a strong fish odor.</p>
<h6>Introduction</h6><br>
<h6>Introduction</h6><br>
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<p class=text1><a href="#ref1">Trimethylamine (TMA)</a> is a volatile compound produced in the intestine by <i>Desulfovibrio desulfuricans</i> by fermentation of choline (<a href="https://2014.igem.org/Team:Paris_Bettencourt/Bibliograpy"> Craciun, S. et al., 2012</a>)(Fig. 1A). In healthy patients, the <i>fmo3</i> gene allows the degradation of TMA in the liver into a non-volatile compound, trimethylamine-N-oxide (Fig.1B). But a mutation in the <i>FMO3</i> sequence is most of the time the cause of trimethylaminuria: TMA is not degraded and is then excreted in sweat, saliva and urine leading to a strong fish odor(Fig. 1C). This autosomal recessive disorder requires two nonfunctional alleles of the <i>FMO3</i> gene. More than 40 known mutations can inactivate <i>FMO3</i>, and inactive alleles have an estimated 0.1-1% global frequency (<a href="https://2014.igem.org/Team:Paris_Bettencourt/Bibliograpy"> Mitchell, S.C et al., 2001</a>). The patients are otherwise healthy but the disease affect their social relationships and can lead to depression. There is currently no cure for this metabolic disorder.  Some treatments, often focused on reducing the choline absorption from food, tend to lower the symptoms (<a href="https://2014.igem.org/Team:Paris_Bettencourt/Bibliograpy"> RJ Mackay et al., 2011</a>).</p>
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<p class=text1><a href="#ref1">Trimethylamine (TMA)</a> is a volatile compound produced in the intestine by <i>Desulfovibrio desulfuricans</i> by fermentation of choline (<a href="https://2014.igem.org/Team:Paris_Bettencourt/Bibliograpy"> Craciun, S. et al., 2012</a>) (Fig. 1A). In healthy patients, the <i>fmo3</i> gene allows the degradation of TMA in the liver into a non-volatile compound, trimethylamine-N-oxide (Fig.1B). But a mutation in the <i>FMO3</i> sequence is most of the time the cause of trimethylaminuria: TMA is not degraded and is then excreted in sweat, saliva and urine leading to a strong fish odor (Fig. 1C). This autosomal recessive disorder requires two nonfunctional alleles of the <i>FMO3</i> gene. More than 40 known mutations can inactivate <i>FMO3</i>, and inactive alleles have an estimated 0.1-1% global frequency (<a href="https://2014.igem.org/Team:Paris_Bettencourt/Bibliograpy"> Mitchell, S.C et al., 2001</a>). The patients are otherwise healthy but the disease affect their social relationships and can lead to depression. There is currently no cure for this metabolic disorder.  Some treatments, often focused on reducing the choline absorption from food, tend to lower the symptoms (<a href="https://2014.igem.org/Team:Paris_Bettencourt/Bibliograpy"> RJ Mackay et al., 2011</a>).</p>
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<div id=part3 class=project>
<div id=part3 class=project>

Revision as of 19:11, 17 October 2014

BACKGROUND

Trimethylamine (TMA) is a volatile compound smelling strongly of spoiled fish. It is produced by bacteria in the human gut and oxidized into a non-volatile compound in the liver by a flavin-containing monooxygenase 3 (FMO3). Trimethylaminuria (TMAU), or Fish Odor Syndrome, is a rare genetic disease caused by inactivating mutations in the FMO3 gene. Consequently, TMA accumulates in sweat, saliva, and urine, causing a strong fish odor. Patients suffer no other serious symptoms, except a difficult social condition.

AIMS

TMA is also processed by the trimethylamine monooxygenase (TMM) of Ruegeria pomeroyi, an enzyme similar to human FMO3. Expressing this enzyme in human skin bacteria should remove trimethylamine from sweat and reduce its unpleasant odor. TMM-expressing bacteria in a cream or spray could be a cheap and stable way to deliver the therapeutic enzyme to TMAU patients.

RESULTS

  • Cloned tmm into E.coli using pSB1C3 and pSEVA315 vectors, creating a new Biobrick: BBa_K1403015.
  • Characterized and quantified the activity of TMM by a colorimetric assay.
  • Confirmed the degradation of trimethylamine by gas chromatography - mass spectrometry (GC/MS).
Aims and Achievement Introduction Results Methods References


Figure 1:
(A) In humans, choline is converted into trimethylamine and acetaldehyde by the gut bacteria Desulfovibrio desulfuricans
(B) Trimethylamine is degraded in the liver into trimethylamine-N-oxyde by FMO3 (flavin-containing mono oxygenase3)
(C) Mutations in the FMO3 gene can cause the loss of the function of the enzyme. In these patients, trimethylamine is excreted into sweat, urine and breath, causing a strong fish odor.

Introduction

Trimethylamine (TMA) is a volatile compound produced in the intestine by Desulfovibrio desulfuricans by fermentation of choline ( Craciun, S. et al., 2012) (Fig. 1A). In healthy patients, the fmo3 gene allows the degradation of TMA in the liver into a non-volatile compound, trimethylamine-N-oxide (Fig.1B). But a mutation in the FMO3 sequence is most of the time the cause of trimethylaminuria: TMA is not degraded and is then excreted in sweat, saliva and urine leading to a strong fish odor (Fig. 1C). This autosomal recessive disorder requires two nonfunctional alleles of the FMO3 gene. More than 40 known mutations can inactivate FMO3, and inactive alleles have an estimated 0.1-1% global frequency ( Mitchell, S.C et al., 2001). The patients are otherwise healthy but the disease affect their social relationships and can lead to depression. There is currently no cure for this metabolic disorder. Some treatments, often focused on reducing the choline absorption from food, tend to lower the symptoms ( RJ Mackay et al., 2011).

Results

After cloning tmm into a Biobrick vector (pSB1C3), the construct was successfully expressed in E. coli. TMM activity was found in TMM-expressing E. coli but not in empty vector-expressing E. coli. TMM does not only degrade trimethylamine into trimethylamine-N-oxide, but also converts indole into indigo. To measure the activity of TMM, the growth medium was supplemented with tryptophan, a precursor of indole, which is the substrate of TMM. After 14h of culture, cells were pelleted, washed twice with sterile water, resuspended in DMSO and sonicated. TMM activity was determined by measuring the absorbance spectrum of bacterial extractions. Peaks at 620 nm were found in TMM-expressing E.coli cultures supplemented with tryptophan, which was identified as indigo according to absorbance spectrum analysis. Gas chromatography-mass spectrometry (GC/MS) confirmed the activity of TMM by showing a significant decrease (p-value<0.05) of the concentration of TMA by TMM-expressing E.coli.

Methods

Cloning
The tmm gene was produced by gene synthesis (IDT). The final construct was codon-optimized for E. coli expresion and included a strong constitutive promoter and ribosome binding site. For E. coli expression, we cloned the Tmm construct into the standard high-copy BioBrick vector pSB1C3 using XbaI and PstI restriction sites. For expression in C. striatum we used the vector pSEVA351, a universal vector with a high-copy replication origin (Reference)using XbaI and HindIII restriction sites.

Indigo absorbance
TMM does not only degrade trimethylamine into trimethylamine-N-oxide, but also converts indole into indigo. Measurement of TMM activity was performed on TMM-expressing E.coli using the isolation of indigo protocol inspired of Choi H.S., Kim J.K et al. (2003).

Gas chromatography-mass spectrometry

References

- ref1
- ref2

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