Difference between revisions of "Part:BBa K3999004"
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====Base Pairs:6839bp==== | ====Base Pairs:6839bp==== | ||
====Origin: Synthetic==== | ====Origin: Synthetic==== | ||
− | ====Properties | + | ==== Properties:Overexpression of tryptophan hydroxylase and 5-hydroxytryptophan decarboxylase ==== |
− | Overexpression of tryptophan hydroxylase and 5-hydroxytryptophan decarboxylase | + | |
− | + | ||
− | + | ||
===Usage and Biology=== | ===Usage and Biology=== | ||
Line 26: | Line 23: | ||
After researching, we found the humans use two enzymes, tryptophan hydroxylase (TPH) and tryptophan decarboxylase (TDC), to convert Tryptophan(Trp), which is an essential amino acid for human’s body, to 5-HT. Moreover, TPH is the rate-limiting enzyme in the process, which means the amount of TPH can directly affect the production speed of 5-HT (Liu 2021). Thus, We hope to modify E. coli by inserting TPH and TDC genes, so that it can become the exogenous synthesis pathway of 5-HT, so as to increase the amount of 5-HT. | After researching, we found the humans use two enzymes, tryptophan hydroxylase (TPH) and tryptophan decarboxylase (TDC), to convert Tryptophan(Trp), which is an essential amino acid for human’s body, to 5-HT. Moreover, TPH is the rate-limiting enzyme in the process, which means the amount of TPH can directly affect the production speed of 5-HT (Liu 2021). Thus, We hope to modify E. coli by inserting TPH and TDC genes, so that it can become the exogenous synthesis pathway of 5-HT, so as to increase the amount of 5-HT. | ||
=== BBa_K3999000 === | === BBa_K3999000 === | ||
− | Name: TPH | + | ===Name: TPH=== |
− | Base Pairs:1641bp | + | ===Base Pairs:1641bp=== |
− | Origin: Synthetic | + | ===Origin: Synthetic=== |
− | Properties: | + | ==== Properties: the coding sequence of tryptophan hydroxylase (TPH). ==== |
+ | === Usage and biology === | ||
+ | TPH catalyzes the L-tryptophan to the 5-hydroxy-L-tryptophan | ||
[[File:T--Shanghai city--BBa K3999004- figure2.jpg|500px|thumb|center|Figure2. The protein structure of tryptophan 5-monooxygenase monomer, Human..]] | [[File:T--Shanghai city--BBa K3999004- figure2.jpg|500px|thumb|center|Figure2. The protein structure of tryptophan 5-monooxygenase monomer, Human..]] | ||
Line 37: | Line 36: | ||
====Base Pairs:1482bp==== | ====Base Pairs:1482bp==== | ||
====Origin: Synthetic==== | ====Origin: Synthetic==== | ||
− | ====Properties==== | + | ==== Properties:the coding sequence of the tryptophan decarboxylase (TDC). ==== |
+ | |||
+ | ===Usage and Biology=== | ||
+ | A kind of aromatic L-amino acid decarboxylase (AADC or AAAD). | ||
+ | The AADC also known as DOPA decarboxylase (DDC), tryptophan decarboxylase, and 5-hydroxytryptophan decarboxylase, is a lyase enzyme (EC 4.1.1.28). AADC catalyzes several different decarboxylation reactions. | ||
BBa_K3999001 is the coding sequence of the tryptophan decarboxylase (TDC), a kind of aromatic L-amino acid decarboxylase (AADC or AAAD). | BBa_K3999001 is the coding sequence of the tryptophan decarboxylase (TDC), a kind of aromatic L-amino acid decarboxylase (AADC or AAAD). | ||
The AADC also known as DOPA decarboxylase (DDC), tryptophan decarboxylase, and 5-hydroxytryptophan decarboxylase, is a lyase enzyme (EC 4.1.1.28). AADC catalyzes several different decarboxylation reactions. | The AADC also known as DOPA decarboxylase (DDC), tryptophan decarboxylase, and 5-hydroxytryptophan decarboxylase, is a lyase enzyme (EC 4.1.1.28). AADC catalyzes several different decarboxylation reactions. | ||
Line 47: | Line 50: | ||
====Base Pairs:4167bp==== | ====Base Pairs:4167bp==== | ||
====Origin: Synthetic==== | ====Origin: Synthetic==== | ||
− | ====Properties==== | + | ====Properties: a plasmid backbone==== |
− | + | ====Usage and biology==== | |
+ | This sequence contains multiple cloning sites (MCS), used for restriction digest assembly of our pTRC99K plasmids. It also contains the promoter, coding sequence, and terminator for streptomyces kanamyceticus resistance (KanR). It contains an origin of replication in E.coli for the plasmid, a LacI promoter, a LacI coding sequence for a lac repressor, a Lac operator, and a trp promoter within lacUV5. | ||
+ | |||
[[File:T--Shanghai city--BBa K3999004- figure4.jpg|500px|thumb|center|Figure4. Plasmid map of pTRC99K.]] | [[File:T--Shanghai city--BBa K3999004- figure4.jpg|500px|thumb|center|Figure4. Plasmid map of pTRC99K.]] | ||
==== Experiment Data ==== | ==== Experiment Data ==== | ||
Line 105: | Line 110: | ||
However, it’s impossible to achieve a completely pure EC cell culture to test. Then we turn our attention to another cell with a similar function as the EC cell, the Rin 14b cell. Dr. Nozawa and his colleagues found the gene expression markers of EC cells such as TPH1, chromogranin A, VMAT1, and synaptophysin are also highly expressed in Rin 14b cells. Moreover, the agonists, like Ca2+ and ionomycin, which can trigger the release of 5-HT from EC cells, can also activate Rin 14b cells, indicating that RIN14B cells share functional similarities with EC cells and can be used as a model to test the potential compounds. | However, it’s impossible to achieve a completely pure EC cell culture to test. Then we turn our attention to another cell with a similar function as the EC cell, the Rin 14b cell. Dr. Nozawa and his colleagues found the gene expression markers of EC cells such as TPH1, chromogranin A, VMAT1, and synaptophysin are also highly expressed in Rin 14b cells. Moreover, the agonists, like Ca2+ and ionomycin, which can trigger the release of 5-HT from EC cells, can also activate Rin 14b cells, indicating that RIN14B cells share functional similarities with EC cells and can be used as a model to test the potential compounds. | ||
In this part of our project, we will use the patch-clamp techniques to find compounds that can stimulate the Rin 14b cells, which can increase the attitude and frequency of its action potential and mark it as a possible direction that pharmacologists can keep researching on. | In this part of our project, we will use the patch-clamp techniques to find compounds that can stimulate the Rin 14b cells, which can increase the attitude and frequency of its action potential and mark it as a possible direction that pharmacologists can keep researching on. | ||
+ | [[File:T--Shanghai_city--BBa_K3999004-_figure14.jpeg|800px|thumb|center|Figure 14.The blast results about the TDC's amino acid sequence of our new part BBa_K3999004 and the old part BBa_K2276001.]] | ||
===Reference=== | ===Reference=== | ||
+ | |||
===(1)Gillman, P. K. (2009, January 29). BPS Publications. British Pharmacological Society | Journals. https://bpspubs.onlinelibrary.wiley.com/doi/full/10.1038/sj.bjp.0707253#b88.=== | ===(1)Gillman, P. K. (2009, January 29). BPS Publications. British Pharmacological Society | Journals. https://bpspubs.onlinelibrary.wiley.com/doi/full/10.1038/sj.bjp.0707253#b88.=== | ||
===(2)J, N. D., S, A., J, N., J, S., A, B., & S, F. (1999, July 9). Mechanisms of action of selective serotonin reuptake inhibitors in the treatment of psychiatric disorders. European neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology. https://pubmed.ncbi.nlm.nih.gov/10523062/.=== | ===(2)J, N. D., S, A., J, N., J, S., A, B., & S, F. (1999, July 9). Mechanisms of action of selective serotonin reuptake inhibitors in the treatment of psychiatric disorders. European neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology. https://pubmed.ncbi.nlm.nih.gov/10523062/.=== | ||
Line 112: | Line 119: | ||
===(4)Gillman, P. K. (2009, January 29). BPS Publications. British Pharmacological Society | Journals. https://bpspubs.onlinelibrary.wiley.com/doi/full/10.1038/sj.bjp.0707253.=== | ===(4)Gillman, P. K. (2009, January 29). BPS Publications. British Pharmacological Society | Journals. https://bpspubs.onlinelibrary.wiley.com/doi/full/10.1038/sj.bjp.0707253.=== | ||
===(5)PJ;, H. C. J. D. R. S. C. (2017, May 4). How do antidepressants work? New perspectives for refining future treatment approaches. The lancet. Psychiatry. https://pubmed.ncbi.nlm.nih.gov/28153641/.=== | ===(5)PJ;, H. C. J. D. R. S. C. (2017, May 4). How do antidepressants work? New perspectives for refining future treatment approaches. The lancet. Psychiatry. https://pubmed.ncbi.nlm.nih.gov/28153641/.=== | ||
− | ===(6)Shulman, K. I., Herrmann, N., & Walker, S. E. (2013, August 10). Current Place of Monoamine Oxidase Inhibitors in the Treatment of Depression. CNS Drugs. https://link.springer.com/article/10.1007/s40263-013-0097-3. | + | ===(6)Shulman, K. I., Herrmann, N., & Walker, S. E. (2013, August 10). Current Place of Monoamine Oxidase Inhibitors in the Treatment of Depression. CNS Drugs. https://link.springer.com/article/10.1007/s40263-013-0097-3.=== |
+ | |||
===(7)Du, Y., Gao, X.-R., Peng, L., & Ge, J.-F. (2020). Crosstalk between the microbiota-gut-brain axis and depression. Heliyon, 6(6). https://doi.org/10.1016/j.heliyon.2020.e04097=== | ===(7)Du, Y., Gao, X.-R., Peng, L., & Ge, J.-F. (2020). Crosstalk between the microbiota-gut-brain axis and depression. Heliyon, 6(6). https://doi.org/10.1016/j.heliyon.2020.e04097=== | ||
===(8)Nozawa, K., Kawabata-Shoda, E., Doihara, H., Kojima, R., Okada, H., Mochizuki, S., Sano, Y., Inamura, K., Matsushime, H., Koizumi, T., Yokoyama, T., & Ito, H. (2009). TRPA1 regulates gastrointestinal motility through serotonin release from enterochromaffin cells. Proceedings of the National Academy of Sciences, 106(9), 3408–3413. https://doi.org/10.1073/pnas.0805323106=== | ===(8)Nozawa, K., Kawabata-Shoda, E., Doihara, H., Kojima, R., Okada, H., Mochizuki, S., Sano, Y., Inamura, K., Matsushime, H., Koizumi, T., Yokoyama, T., & Ito, H. (2009). TRPA1 regulates gastrointestinal motility through serotonin release from enterochromaffin cells. Proceedings of the National Academy of Sciences, 106(9), 3408–3413. https://doi.org/10.1073/pnas.0805323106=== |
Latest revision as of 03:52, 22 October 2021
pTrc99k-TPH-TDC
pTrc99k-TPH-TDC
Profile
BBa_K3999004
Name: pTrc99k-TPH-TDC
Base Pairs:6839bp
Origin: Synthetic
Properties:Overexpression of tryptophan hydroxylase and 5-hydroxytryptophan decarboxylase
Usage and Biology
According to the World Health Organization(2020), depression became a major contributor to disease burden, with more than 264 million people suffering from its pain. People are constantly under stress from various aspects of life: career, socialization, study, etc. Unfortunately, in December 2019, an outbreak of CoronaVirus Disease 2019 (Covid-19) ravaged the world; nearly four billion people died during this pandemic. (Ritchie 2021). Under such an intense environment, many friends and relatives of ours fall victim to depression. Yunhe Wang, et al. (2021) used a national online survey demonstrating that people who experienced quarantine have a higher risk of being influenced by depression, especially those who have a history of mental illness and are infected by Covid-19. These heartbreaking numbers bring students worldwide with ambition in biology and psychology to Shanghai and form this team. We, the Heartinker team, are deeply concerned about the situation of depression patients and hope to use the advanced technology of synthetic biology to discover a new antidepressive target and find a more effective and harmless antidepressive product to solve the problems of current antidepressants. Serotonin is widely found in the natural tissues of animals, especially in the cerebral cortex and synapses in high levels, and also in plants and fungi in a small amount. In the pharmaceutical field, serotonin, as a drug, can participate in a variety of physiological functions of the organism, including emotion regulation, behavior management, sleep cycle maintenance, scavenging harmful free radicals and so on. The Monoamine hypothesis is a widely accepted hypothesis for the cause of depression at present. This theory holds that depression is caused by the decrease in the concentration or function of monoamine neurotransmitters (such as 5-hydroxytryptamine) in the synaptic space of the central nervous system. The decrease of the neurotransmitter function of 5-hydroxytryptamine(Serotonin or 5-HT) not only leads to the occurrence of depression and anxiety, but also interferes with the normal function of other neural circuits. Even though the deficiency of 5-HT can lead to depression is still a hypothesis, after decades of research, the role of 5-HT in depression has been refined, and more scientific evidence suggests the importance of 5-HT in treating depression (Albert 2012). Therefore, we decided to choose 5-HT as a direction to develop our antidepressive product in two pathways.
Construct design
After researching, we found the humans use two enzymes, tryptophan hydroxylase (TPH) and tryptophan decarboxylase (TDC), to convert Tryptophan(Trp), which is an essential amino acid for human’s body, to 5-HT. Moreover, TPH is the rate-limiting enzyme in the process, which means the amount of TPH can directly affect the production speed of 5-HT (Liu 2021). Thus, We hope to modify E. coli by inserting TPH and TDC genes, so that it can become the exogenous synthesis pathway of 5-HT, so as to increase the amount of 5-HT.
BBa_K3999000
Name: TPH
Base Pairs:1641bp
Origin: Synthetic
Properties: the coding sequence of tryptophan hydroxylase (TPH).
Usage and biology
TPH catalyzes the L-tryptophan to the 5-hydroxy-L-tryptophan
BBa_K3999001
Name: TDC
Base Pairs:1482bp
Origin: Synthetic
Properties:the coding sequence of the tryptophan decarboxylase (TDC).
Usage and Biology
A kind of aromatic L-amino acid decarboxylase (AADC or AAAD). The AADC also known as DOPA decarboxylase (DDC), tryptophan decarboxylase, and 5-hydroxytryptophan decarboxylase, is a lyase enzyme (EC 4.1.1.28). AADC catalyzes several different decarboxylation reactions. BBa_K3999001 is the coding sequence of the tryptophan decarboxylase (TDC), a kind of aromatic L-amino acid decarboxylase (AADC or AAAD). The AADC also known as DOPA decarboxylase (DDC), tryptophan decarboxylase, and 5-hydroxytryptophan decarboxylase, is a lyase enzyme (EC 4.1.1.28). AADC catalyzes several different decarboxylation reactions.
In our project, TDC is used to catalyze 5-Hydroxytryptophan (5-HTP) to serotonin (5-hydroxytryptamine, 5-HT). In normal dopamine and serotonin (5-HT) neurotransmitter synthesis, AADC is not the rate-limiting step in either reaction. However, AADC becomes the rate-limiting step of dopamine synthesis in patients treated with L-DOPA (such as in Parkinson's disease), and the rate-limiting step of serotonin synthesis in people treated with 5-HTP (such as in mild depression or dysthymia). AADC is inhibited by carbidopa outside of the blood-brain barrier to inhibit the premature conversion of L-DOPA to dopamine in the treatment of Parkinson's.
BBa_K3999002
Name: pTrc99k
Base Pairs:4167bp
Origin: Synthetic
Properties: a plasmid backbone
Usage and biology
This sequence contains multiple cloning sites (MCS), used for restriction digest assembly of our pTRC99K plasmids. It also contains the promoter, coding sequence, and terminator for streptomyces kanamyceticus resistance (KanR). It contains an origin of replication in E.coli for the plasmid, a LacI promoter, a LacI coding sequence for a lac repressor, a Lac operator, and a trp promoter within lacUV5.
Experiment Data
Line 1: pTRC99K-vector, control plasmid, 4167bp
Line 2: recombinant plasmid pTRC99K-TDC-TPH-1, incorrect
Line 3: recombinant plasmid pTRC99K-TDC-TPH-2, 7077bp, correct
Line 4: control plasmid, 6379bp
Gel electrophoresis of recombinant plasmid pTRC99K- TDC-TPH shows that the size of pTRC99K-TDC-TPH-2 is correct.
Rcombinant plasmid pTRC99K- TDC-TPH sequencing analysis
The sequencing results show that both TPH and TDC are inserted into pTRC99K successfully.
In theory, the expression of inserted coding sequence must be induced by IPTG. However, experiment data shows that protein can express successfully regardless of whether there is IPTG induction.
Lane 1: Culture supernatant with induction (40 μL);
Lane 2: Culture supernatant without induction (40 μL);
Lane 3: Without samples
Lane 4: Supernatant of cell lysate with induction (40 μL);
Lane 5: Supernatant of cell lysate without induction (40 μL);
Lane 6: Pellet of cell lysate with induction (40 μL);
Lane 7: Pellet of cell lysate without induction (40 μL);
Lane 8: Supernatant of cell lysate with induction (20 μL);
Lane 9: Supernatant of cell lysate without induction (20 μL);
We got two bands 43.53kDa (TPH) and 53.55kDa (TDC) in both supernatant of cell lysate and pellet of cell lysate. These results suggest that TPH and TDC proteins can be expressed successfully regardless of IPTG induction.
Proof of function
Rin 14b cell screening platform
Patch Clamp Results
After administration, the membrane potential became stable and the release frequency of AP increased, suggesting that this compound may have the ability to stably activate RIN14B cells.
After administration, the membrane potential decreased, the release frequency of AP increased, and the amplitude increased significantly, and the effect could not be eluted, which may indicate that this compound has a strong activation ability for RIN14B cells.
The membrane potential and AP release frequency increased after administration, suggesting that the compound may have the ability to activate RIN14B cells.
Improvement of an existing part
Compared to the old part BBa_K2276001, which consisting of T7 promotor, 6xHis tag, thrombin site, and the coding sequence of tryptophan decarboxylase (TDC). We found the humans use another enzymes, tryptophan hydroxylase (TPH), to convert Tryptophan(Trp), which is an essential amino acid for human’s body, to 5-HT. So we design a new part BBa_K3999004. Moreover, TPH is the rate-limiting enzyme in the process, which means the amount of TPH can directly affect the production speed of 5-HT (Liu 2021). Thus, We hope to modify E. coli by inserting TPH and TDC genes, so that it can become the exogenous synthesis pathway of 5-HT, so as to increase the amount of 5-HT.
We were inspired by a fascinating property of 5-HT that less than one in a million CNS neurons produce serotonin, and 95% of serotonin was released into the gut by intestinal enterochromaffin cells (Berger 2018). Hence, we hope to stimulate the EC cell to make it release more 5-HT in the blood and increase the chance to treat the depression via a gut-brain circuit. As Dr. Nozawa et al. (2009) reported in their journal, TRPA1 is an excitatory ion channel that can be stimulated by many natural compounds, like spices and herbal medicines, and these TRPA1 agonists cause Ca2+ influx and 5-HT release in EC cells. Luckily, this ion channel is also highly expressed in gastrointestinal tissues in humans, mice, and rats. In other words, if we can stimulate the TRPA1 agonists on the EC cells, we can make it release more 5-HT. However, it’s impossible to achieve a completely pure EC cell culture to test. Then we turn our attention to another cell with a similar function as the EC cell, the Rin 14b cell. Dr. Nozawa and his colleagues found the gene expression markers of EC cells such as TPH1, chromogranin A, VMAT1, and synaptophysin are also highly expressed in Rin 14b cells. Moreover, the agonists, like Ca2+ and ionomycin, which can trigger the release of 5-HT from EC cells, can also activate Rin 14b cells, indicating that RIN14B cells share functional similarities with EC cells and can be used as a model to test the potential compounds. In this part of our project, we will use the patch-clamp techniques to find compounds that can stimulate the Rin 14b cells, which can increase the attitude and frequency of its action potential and mark it as a possible direction that pharmacologists can keep researching on.
Reference
(1)Gillman, P. K. (2009, January 29). BPS Publications. British Pharmacological Society | Journals. https://bpspubs.onlinelibrary.wiley.com/doi/full/10.1038/sj.bjp.0707253#b88.
(2)J, N. D., S, A., J, N., J, S., A, B., & S, F. (1999, July 9). Mechanisms of action of selective serotonin reuptake inhibitors in the treatment of psychiatric disorders. European neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology. https://pubmed.ncbi.nlm.nih.gov/10523062/.
(3)V, R. M., & Z, P. W. (1999, June 19). Metabolism of tricyclic antidepressants. Cellular and molecular neurobiology. https://pubmed.ncbi.nlm.nih.gov/10319193/.
(4)Gillman, P. K. (2009, January 29). BPS Publications. British Pharmacological Society | Journals. https://bpspubs.onlinelibrary.wiley.com/doi/full/10.1038/sj.bjp.0707253.
(5)PJ;, H. C. J. D. R. S. C. (2017, May 4). How do antidepressants work? New perspectives for refining future treatment approaches. The lancet. Psychiatry. https://pubmed.ncbi.nlm.nih.gov/28153641/.
(6)Shulman, K. I., Herrmann, N., & Walker, S. E. (2013, August 10). Current Place of Monoamine Oxidase Inhibitors in the Treatment of Depression. CNS Drugs. https://link.springer.com/article/10.1007/s40263-013-0097-3.
(7)Du, Y., Gao, X.-R., Peng, L., & Ge, J.-F. (2020). Crosstalk between the microbiota-gut-brain axis and depression. Heliyon, 6(6). https://doi.org/10.1016/j.heliyon.2020.e04097
(8)Nozawa, K., Kawabata-Shoda, E., Doihara, H., Kojima, R., Okada, H., Mochizuki, S., Sano, Y., Inamura, K., Matsushime, H., Koizumi, T., Yokoyama, T., & Ito, H. (2009). TRPA1 regulates gastrointestinal motility through serotonin release from enterochromaffin cells. Proceedings of the National Academy of Sciences, 106(9), 3408–3413. https://doi.org/10.1073/pnas.0805323106
(9)[1] Côté F, Thévenot E, Fligny C, Fromes Y, Darmon M, Ripoche MA, et al. (November 2003). "Disruption of the nonneuronal tph1 gene demonstrates the importance of peripheral serotonin in cardiac function". Proceedings of the National Academy of Sciences of the United States of America. 100 (23): 13525–30. Bibcode:2003PNAS..10013525C. doi:10.1073/pnas.2233056100. PMC 263847. PMID 14597720.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 5898
- 21INCOMPATIBLE WITH RFC[21]Illegal BamHI site found at 5544
Illegal XhoI site found at 5919
Illegal XhoI site found at 6429 - 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]