SML Biopharm is the next generation vaccine
It's a research and development company
SML바이오팜,중소벤처기업부 ’23년 혁신분야 창업패키지’ 지원사업에 선정- 중기부 혁신분야 창업패키지 지원사업은 초격차 분야 유망기업의 혁신성장을 지원하기 위해 스타트업을 육성하는 프로그램- ㈜에스엠엘바이오팜 김용관 대표, “이번 지원사업의 선정으로 자체 보유하고 있는 mRNA 플랫폼과 LNP 전달체를 더욱 고도화하여 회사 성장 가속화할 터”(주)에스엠엘바이오팜 (SML Biopharm, 대표 김용관)은 중소벤처기업부가 주관하는 2023년도 혁신분야 창업패키지 (신산업 스타트업 육성) 지원사업체로 신규 선정됐다고 밝혔다.중소벤처기업부 혁신분야 창업패키지 지원사업은 초격차 분야 유망기업의 혁신성장을 지원하기 위해 글로벌 트렌드와 기술, 시장 수요에 부합하며 국가경제의 미래를 이끌어갈 스타트업을 육성하는 프로그램이다. 에스엠엘바이오팜은 엄격한 심사 과정을 통해 바이오·헬스 지원 분야에 선정되었다.에스엠엘바이오팜은 이번 지원사업 선정을 계기로 기술 사업화에 필요한 자금 지원, 창업성장 및 기술혁신 R&D 연계 지원 등 다양한 기술사업화와 스케일업 특화 프로그램에 참여에 교두보를 마련하게 되었다. 향후 에스엠엘바이오팜은 자체 보유하고 있는 mRNA 플랫폼과 LNP 전달체를 더욱 고도화하고, 차세대 mRNA 플랫폼 기술 확보를 통해 암, 희귀질환 등을 포함한 만성 질병의 예방 및 치료를 위한 미래 핵심 기술 연구 개발을 진행할 예정이다.에스엠엘바이오팜 김용관 대표는 "코로나19 팬데믹을 통해 감염성 질병에서 mRNA 기술의 가능성은 확인하였지만, mRNA의 잠재력을 다양한 질병에 적용 및 확장하기 위해서는 추가적인 기술 개발이 꼭 필요하다"며 "에스엠엘바이오팜은 앞으로 Next-generation mRNA 기술을 확보하여 회사의 성장을 가속화하는 한편, 현재 주력하는 미래 미충족 감염병 예방 및 항암백신 연구 개발을 지속하여 아직 치료제가 없는 여러 질병으로부터 고통받고 있는 환자들에게 새로운 치료 기회를 제공할 수 있도록 노력하겠다"고 전했다.한편, ㈜에스엠엘바이오팜 2021년 9월 가톨릭대학교 남재환교수가 학교창업을 통해 설립했으며, 2022년 1월에 ㈜삼광랩트리의 씨드 투자, 6월에 메리츠증권㈜로부터 Series A를 투자 받아 경기도 광명역 소재 엠클러스터에 둥지를 튼 스타트기업이다. 에스엠엘바이오팜은 mRNA 플랫폼과 전달체인 LNP 기술을 활용해 암, 감염병 및 희귀질환 등을 타겟으로 차세대 백신 및 치료제를 개발하고 있다. 현재 자체의 mRNA 플랫폼과 LNP 라이브러리, RNA 면역증강제, 기타 Viral vector 기술을 확보하고 있으며, 이를 이용해 개인 맞춤형 암백신 및 만성질환 치료제, 감염병 예방/치료백신 후보물질 파이프라인을 개발 중이다. 이외에도 mRNA가 기존 의약품 기술의 미충족 수요를 해결할 수 있는 다양한 영역에서 활발한 공동연구를 통해 mRNA 플랫폼 기술의 가치를 높여가고 있다.중소기업벤처부 혁신분야 창업패키지 지원사업은,글로벌 트렌드와 기술, 시장수요에 부합하며 국가경제의 미래를 이끌어갈 초격차 분야 유망기업의 혁신성장을 지원하기 위해 중소벤처기업부에서 운영하는 초격차 스타트업 1000+ 프로젝트의 세부사업으로 신산업 분야의 핵심기술·제품 및 성장가능성을 보유한 기업을 선발하여 3년간 맞춤형 기술사업화 및 스케일업을 위한 기술·경영·투자유치 등 다양한 분야의 프로그램을 지원하고 있다.서울경제TVhttps://www.sentv.co.kr/news/view/655964아시아Ahttp://www.asiaa.co.kr/news/articleView.html?idxno=125199비즈니스코리아http://www.businesskorea.co.kr/news/articleView.html?idxno=114485라포르시안https://www.rapportian.com/news/articleView.html?idxno=160747메디파나https://www.medipana.com/article/view.php?news_idx=311818프레스나인http://www.press9.kr/news/articleView.html?idxno=55217뉴스더보이스헬스케어http://www.newsthevoice.com/news/articleView.html?idxno=32599헬스인뉴스http://www.healthinnews.co.kr/news/articleView.html?idxno=37540사이언스MD뉴스http://www.sciencemd.com/news/view.asp?idx=111714바이오타임즈https://www.biotimes.co.kr/news/articleView.html?idxno=10740의약품유통신문http://kpdanews.kr/Service/News/View.asp?strTbl=WB103&strNum=23498팜뉴스https://www.pharmnews.com/news/articleView.html?idxno=223518
▲Dr. Jae-Hwan Nam, professor of biomedical sciences at Catholic University of Korea.[The COVID-19 pandemic is considered one of the most rapidly emerging infectious diseases in human history.Unlike previous infectious diseases that utilized only one type of vaccine platform, the COVID-19 pandemic has led to the development of vaccines using all technologies, including inactivated, viral vectors, nucleic acids (DNA or mRNA), and recombinant proteins, allowing for comparisons between platforms.As vaccine development technology has blossomed due to COVID-19, the vaccine industry has emerged as a high value-added industry, and expectations for the emergence of vaccines for diseases such as cancer, type 1 diabetes, and Alzheimer's disease are also rising.We asked Professor Nam Jae-hwan of the Department of Biomedical Sciences at Catholic University of Korea about the future of vaccine development, including cancer, incurable diseases, and chronic diseases after infectious diseases. Dr. Nam was the first to research mRNA vaccines in Korea and is currently the Chief Technology Officer of SML Biopharm.■What are the promising platforms for developing vaccines to prevent and treat diseases?There is a lot of interest in mRNA vaccine platforms in academia and industry. There are two main types of mRNA vaccines: those that enhance immunity and those that supplement proteins. Immune-boosting vaccines can be divided into preventive and therapeutic.In the case of mRNA vaccines, mRNA containing the gene encoding the antigen is injected into the body, and the mRNA molecule is delivered to dendritic cells, where it activates T and B cells by presenting human leukocyte antigens (HLA) in humans and major histocompatibility complexes (MHC) in mice.Prophylactic vaccines produce large numbers of neutralizing antibodies, and some T and B cells turn into memory cells, which remember the antigen and act as a prophylactic vaccine. Therapeutic vaccines rely primarily on T-cell responses and are usually studied in conjunction with anticancer drugs.Future mRNA vaccines will be more therapeutic than prophylactic. Prophylactic vaccines are administered to healthy individuals, so even minor adverse events can be problematic.However, therapeutic vaccines, especially cancer vaccines, target life-or-death diseases, so a certain level of adverse events will not be a problem for patients in order to treat their cancer. For this reason, we expect mRNA vaccines to be developed primarily for therapeutic use.■Can mRNA vaccines be utilized for all diseases, including those for which there is already a vaccine?Until the safety of mRNA vaccines is fully confirmed, it is unlikely that mRNA vaccines will be utilized for infectious diseases for which there is already a vaccine, unless a pandemic crisis like COVID-19 occurs again or a vaccine needs to be developed quickly. Many people expect mRNA vaccines to replace all vaccines, but I disagree.For example, influenza vaccine, an inactivated vaccine, has some side effects, such as a slight soreness at the injection site, but mRNA vaccines can cause more painful side effects. If it were a life-or-death situation and the injection was painless, it would be a different story, but for now, I don't think mRNA vaccines will replace existing vaccines for diseases for which there are already vaccines.Even if mRNA vaccines are effective, we still need to evaluate their long-term safety and research on how to overcome them. As with all vaccines, there are adverse events, and the risk-benefit ratio needs to be weighed carefully.■ Do you expect new cancer, incurable disease, or chronic disease vaccines to emerge in the future?Cancer can be vaccinated using mRNA platforms. We think we can develop a vaccine for incurable brain diseases, but more research is needed.There is a movement to prevent or treat Alzheimer's disease, an incurable brain disease, with a vaccine. The idea is to externally inject antibodies that attack beta-amyloid or tau proteins, which are thought to cause Alzheimer's disease.However, many studies have failed. Conceptually, a vaccine against an antigen like beta-amyloid or tau could contain an immune booster to help the body make antibodies. However, many hurdles need to be overcome, so it is still at the conceptual level.For autoimmune diseases such as type 1 diabetes, another incurable disease, proof-of-concept studies have shown that making mRNA of peptide antigens that induce experimental autoimmune encephalomyelitis (EAE) and injecting them into mice induces an increase in regulatory T cells (Treg) that suppress the immune response, leading to the idea that mRNA vaccines for autoimmune diseases can be developed. Considering this, a vaccine could be developed to prevent autoimmune reactions in type 1 diabetes.However, developing vaccines for chronic diseases is not easy. For example, even if we could develop an mRNA vaccine against obesity, targeting the proteins involved in obesity would require an antibody response, not a T-cell immune response. This is because T-cells can participate in autoimmune reactions and cause autoimmune diseases. There may also be various adverse reactions, so a lot of basic research is needed.■Is it possible to develop vaccines for cancer, incurable diseases, and chronic diseases with Korean technology?It is possible. There are many researchers working on mRNA vaccines. In the past, I was the only one with an mRNA vaccine platform, so I was working alone. But after the COVID-19 pandemic, things changed. Many young researchers have entered the field of mRNA vaccines, making it easier to collaborate.It's time for the government to continue to invest in research. Many researchers are working on the development of mRNA vaccines, and if the government funds their research, we can catch up with other countries that are currently ahead of us.■What vaccines are you currently researching?We are developing a personalized cancer vaccine using mRNA. Until now, the biggest limitation in developing personalized cancer vaccines by discovering new antigens has been the difficulty of discovering new antigens that are immune and show therapeutic effects.Until now, neoantigens have been discovered using in silico computer simulations, but the success rate has been less than 10%. A number of research teams have reported preclinical or clinical results using peptides to immunize against neoantigens, but peptides are expensive and difficult to create different combinations.mRNA vaccines can immunize multiple combinations of neoantigens at once, which is advantageous for the development of personalized cancer vaccines. Recently, Moderna and Merck announced that they have successfully developed a personalized cancer vaccine in combination with Keytruda in a Phase 2b clinical trial. The team hopes to conduct preclinical trials of a personalized cancer vaccine this year using the mRNA vaccine they developed.Sunhye Park, Medical UpJever Reporter shpark@monews.co.kr* Copyright ⓒ Medical Upriser All Rights Reserved.