Expert Interviews

Part 1 Design

As the project design is the core of our work, we interviewed Professor Nie (from College of Chemical Engineering, Hunan University) about some details n the experiment.

The origin function of Trim21

Trim21 binds to the fc domain of the antibody, and the proteasome degrades the antigen, but the trim is endogenously expressed (intracellular), while the antibody is in the circular (extracellular). They are in two different places so that the meaning of existence of Trim21 protein should not be the degradation of antigen, so what is the main function of Trim21? Is it that the escaped virus carries antibodies outside the cell and is recognized and degraded after entering the cell?

TRIM21 is an intracellular antibody effector in the intracellular antibody-mediated proteolysis pathway. It recognizes Fc domain and binds to immunoglobulin G as well as immunoglobulin M on antibody marked non-enveloped virions which have infected the cell. Either by autoubiquitination or by ubiquitination of a cofactor, it is then responsible for directing the virions to the proteasome. TRIM21 itself is not degraded in the proteasome unlike both the viral capsid and the bound antibody. TRIM21 is also part of the RoSSA ribonucleoprotein, which includes a single polypeptide and one of four small RNA molecules. The RoSSA particle localizes to both the cytoplasm and the nucleus.

The delivery of Trim system

How to directly enter the cell to play a role is a problem that chemists care about and study (JACS, nano letters, ACS nano, Angewandte chem and other journals commonly made materials with "drugs" into cells, intracellular energy detection, but general experimental data is very small).

Method:

1) banding peptide

2) How to directly transfer proteins into cells (kit?)

3) Nano, package

4) Functional materials such as MOF

5) Bring some ligands, and combine with the receptors on the cell to invade the cells, or directly into the cells to play a role (question: can play a role? Play a pathway?)

6) cationic modification: but it can not play a recognition role

Design:

1) One for multiple targets with multiple nano: multiple target screening

2) Take DNA Aptamer for targeting, they have ready-made DNA and peptide linkage means, which are amino acid sequence-specific

3) Similar to glucagon, but with endocytosis exocytosis: estrogen receptor, design (same question: can it work? How does it work?)

4) Ligand-receptor class:

The turnover of Trim21

How is Trim21's own turnover in the cell? Can it be self-ubiquitinated? Is it ubiquitinated with a complex?

Design:

1) Fixation of GFP initial value: study of turnover under gfp quantification by injection or protein transfer to quantitative GFP (fixed amount of exogenous gfp)

2) Trim21 self-fusion gfp, after quantitative introduction, study the turnover of trim21-gfp: fluorescence observation oscillation, total trim can be detected by wb (two bands.)

3) What about Trim21's own turnover?

Trim21's oscillator circuit design

Enhancer expression degradation, with a simple double negative feedback loop design and optimize its oscillation time, combined with specific physiological phenomena, such as can be consistent with the clock time.

Part 2 Feasibility & Practicality

Although our project is just a small step forward on the way to specific protein degradation, if one day we find proteins that can induce cell carcinogenesis then we can use this technique to weed out these carcinogenic proteins in the human body, which will contribute a lot in the history of Medicine. However, we had no idea about the feasibility and practicality of the application of PR PREDATOR in actual disease, especially cancer. And to what extent could the new development of cancer treatment be promoted?

Based on the above questions, we contacted Professor Qiang Ma and Professor Yunshan Ning in School of Laboratory Medicine and Biotechnology, Southern Medical University by emails on the exchange and consultation.

这里有两个对比的表格

Interview

Time: 2018/09/06 09:00

Place: School of Laboratory Medicine and Biotechnology

Interviewees: Qiang Ma, Yunshan NIng

Interviewer: Kaiqi Chen

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Company Research

On 28th September, we visited Genetalks in hope of getting professional advice based on the current market and we were lucky enough to interview Dr. Zhuo Song. As the CTO, he provided us with very pertinent ideas about our project as well as comprehensive answers to our problems, which inspired us quite a lot.

Our interview questions fallen into three aspects as follows:
The first is about the limitations of existing methods of reducing gene expression such as gene knockout, RNAi and novel gene editing techniques. We hope that through having a clear view on what problems still exist, we can know which kind of improvements that we actually need to focus on.
Dr. Zhuo told us that all traditional methods of reducing gene expression had efficiency problems and moreover, they also yielded unknown effects.

The next one is safety issue. Although there are few clinical applications to degrade intracellular proteins at present, there is a general trend in market demand. The main problem is that the biological complexity leads to unknown practical application. Therefore, safety is the most essential topic we need to consider about.
Considering the safety issue about our project, Dr. Zhou raised two aspects.
1.Unknown effects in vivo environment
Dr. Zhou mentioned that the purpose of protein-specific degradation technology is to degrade abnormal or overexpressed proteins. The implementation of this method in vivo must ensure that it does not introduce other problems that are adverse to the organism. It should be noted that in vitro and in vivo environment are not equivalent.
2.Excessive protein degradation
From an evolutionary point of view, it is only the amount of protein present in an organism that determines its actual function. Therefore, the degree of protein degradation on the biological effects should also be taken into account. For example, the removal of certain overexpressed proteins may affect the normal physiological activities of the organism.

Last but not least, it is about the possibility of application. We hope based on his abundant market experience, Dr. Zhou can give us more detailed suggestions about the approaches to clinical application and marketization of our project. Here are some significant answers we get.
1. What difficulties do you think our project will meet in the result transformation?
Dr. Zhou: The first thing must be considered is security issues. Also, you have to look for clinical trials of medical institutions that are willing to cooperate. What’s more, you need to pay attention to the negative or positive result of the standard.
2. During the transformation of achievements in China, the situation that the intermediate process of commercialization and industrialization of scientific and technological achievements is missing, always occurs, which is related to both universities and enterprises. Can you give some suggestions to avoid the "blank" area?
Dr. Zhou: Much of the reason for the "pilot" area actually lies in the role of government. While protecting the intellectual property rights is to protect the benefits of universities, the cost of subsequent transformation is very high, which is related to the cost of patent and development. Foreign commercial interests are only granted to a company, and the risk of success or failure is shared. In our country, patents have not really transformed.
3. If the improved protein degradation method in our study is introduced, can it play a significant role in diseases such as malignant tumors in the future?
Dr. Zhou: If the improved protein degradation method in the subject is applied, the following problems should be considered:
a) Can protein degradation last functioning?
b) Are there any incidental effects of unknown after degradation?
c) To what extent can the degradation be? How do you control that?
d) Can the degradation cause cell idle?
e) Concerns about sensitivity and specificity
Try to think about the dynamics of the control network and choose a clear application point.
If these problems can be solved, this method will play an important role in the application of diseases such as tumors.

After collecting the market-based information above, we had the idea of degrading target proteins related to some diseases. The cell experiment would especially focused on the problems mentioned by Dr.Zhuo and we would work more on the possibility of transformation process.

Speeches at Streets & Survey

To make our work responsible and good for the world, people’s attitude is an important factor. We did a survey of people’s cognition of traditional curing methods of tumor, cancer and Alzheimer’s disease and potential methods using PR PREDATOR. In addition to investigating this issue, we worked hard to engage with people by delivering speeches at streets. We inspired people by introducing our project in its future application and raised their awareness of preventing the fatal diseases mentioned above. The results of survey and details about speeches can be seen on our Education Page.

Through the survey and engagement with the public, we had a clear view of people’s attitude towards “target therapy” and the future application of PR PREDATOR. Since many of people involved had a positive attitude to our project, we would continue working on experiment and try to exert a greater influence in maintaining health.

Knowing that most people were still not familiar with the degradation process, we made a questionnaire for publicity including basic knowledge of proteins in human cells and challenging questions related to our project, which could achieve greater publicity step by step.

Co-Research on Fundamental Study

Knowing that there was a gap between scientific research and product development in China, with the proposal of team Tianjin team, six universities worked together to make research on how the laboratory results are converted to market products. We conducted market research on the products based on fundamental study and then investigated the evaluation mechanism. The final report of commercialization of research findings worked as a reference guide for foundational advance.

The body of the report is the analysis and research of this transformation process (with theory and case study) and our projects. The theoretical part was completed by iGEM Tianjin and our team. The case study was completed by OUC-China and Jilin_China. In our own project analysis section, ZJU-Chian and XJTU-China wrote a detailed application plan.

The theoretical analysis we were in charge of is as follows:

The transformation of fundamental research results of Chinese universities basically follows the IUR mode, that is, the synergy and integration of Industry, University and Research in terms of function and resource advantages. This is the docking and coupling of technological innovation in the upper, middle and lower reaches. With the support of government policies and regulations, in the communication with potential customers, it has gradually shifted to the coordinated development mode of GCIUR (Government-Customer-Industry-University-Research).

Early exploration and planning of scientific and technological achievements

Scientific research
Universities and research institutions are guided by scientific achievements. The core appeal is the transformation of them, which is combined with the demands of enterprises to form a supply and demand market for collaborative innovation. The transformation pathway is from the extensive basic research to technological invention.

Value assessment
The value of scientific and technological achievements includes science, technology, market, economic profits, and social influence factors. In the evaluation system, scientific factors mainly refer to science, academic value and development degree. Technical factors include advancement, maturity, patents, market docking and risks. The influence of market comes from the environment, demands, period and competition risks. The expected income, development cycle and cost are mainly included in the factor of economic benefits. And social influence refers to resource conservation, employment increase, environmental impact, etc.

At present, there are many evaluation index systems for the transformation efficiency.
First-level Indicators:
1.Input
Manpower:
The proportion of scientific and technological personnel
The proportion of government funds
Fund:
From government
From enterprises and institutions
2.Output
Market transformation income (technological transfer income)

Patent-based technology development and protection

Recent years, the awareness of the significance of patent technology research and development in China’s universities has gradually deepened. Therefore, the number of patent applications and that of authorizations have increased rapidly. However, the problems are that patent technology has a short maintenance period and low conversion rate. In order to solve the problem of disconnection between patent results and the market, in addition to improvements in relevant policies and regulations, researchers should start from the starting point of patent research and development, enhance the adaptability of technological achievements to the market, and strengthen the education of intellectual property protection.

Intellectual property protection
At present, people generally lack understanding of intellectual property rights. and there is a certain deviation in the understanding of patent law. Some people one-sidedly considered that only physical inventions can be real inventions, but in fact new methods and new technical solutions are also inventions and should also be protected. The scope of protection of modern intellectual property rights has expanded from traditional patents and trademarks to diverse objects including computer software and biotechnology.
It is extremely urgent to strengthen the awareness of intellectual property protection. Some university researchers have published the papers and made technical appraisals, and have already disclosed the details of inventions and creations, thus losing their novelty and losing the timing and conditions for applying for patents. Therefore, if we want to grasp the opportunities in the development and protection of patent-based technologies, we must enhance the patent awareness and clarify that patent applications must be scientific, novel, and practical.

Finishing this part of the report, we discovered that the transformation of research findings was a comprehensive process related to many factors. Government, users, companies, and scientists should work together for the final goal. In view of our project, we should consider market demand if we wanted to convert our innovative protein degradation tools to a practical curing method.

As for the transformation of our project, PR PREDATOR, basically we have been following the mode of GCIUR. The laws and policies from the government work as the guidance and support. The potential users’ attitudes are mostly positive. There is a huge market demand in innovative tools of degrading proteins in practice so the industry part is willing to work. Plus, our research in the university has been going and will continue to be done.

Many of the diseases caused by abnormal proteins are fatal or can’t be easily cured. Even though there have been some effective cures for them, the disadvantages and limitations still exist. And at present, the application of medicines for degrading proteins is still a new field. It can be concluded that the transformation of our research has a huge market demand, so that the supply and demand market for collaborative innovation with enterprises can be formed.

As for patent application, we plan to add further experiment after iGEM and make our project better-rounded. Fortunately, bioresearch has been emphasized in education of our university, which will make the process go more smoothly. But we may not be able to apply the patent individually, but in the name of our school.

There is no denying that we need technological improvements in the further transformation process. For example, we must consider whether the system will work in vivo environment, the degree of degradation, which disease will be targeted to and other relative issues. After solving these questions, the commercialization will be possible, theoretically.

CFDA Inquiry

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Donec id elit non mi porta gravida at eget metus. Fusce dapibus, tellus ac cursus commodo, tortor mauris condimentum nibh, ut fermentum massa justo sit amet risus. Etiam porta sem malesuada magna mollis euismod. Donec sed odio dui.