항암 기전과 관련된 후코이단 구조 및 활성

출쳐: <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/" target="_blank" class="ke-link">Fucoidan Structure and Activity in Relation to Anti-Cancer Mechanisms - PubMed (nih.gov)</a>Review . 2019 Jan 7;17(1):32. doi: 10.3390/md17010032.Fucoidan Structure and Activity in Relation to Anti-Cancer Mechanisms<a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/?term=van+Weelden+G&cauthor_id=30621045" target="_blank" class="ke-link">Geert van Weelden</a> <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/#affiliation-1" target="_blank" class="ke-link">1</a> <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/#affiliation-2" target="_blank" class="ke-link">2</a>, <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/?term=Bobi%C5%84ski+M&cauthor_id=30621045" target="_blank" class="ke-link">Marcin Bobiński</a> <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/#affiliation-3" target="_blank" class="ke-link">3</a>, <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/?term=Ok%C5%82a+K&cauthor_id=30621045" target="_blank" class="ke-link">Karolina Okła</a> <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/#affiliation-4" target="_blank" class="ke-link">4</a>, <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/?term=van+Weelden+WJ&cauthor_id=30621045" target="_blank" class="ke-link">Willem Jan van Weelden</a> <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/#affiliation-5" target="_blank" class="ke-link">5</a>, <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/?term=Romano+A&cauthor_id=30621045" target="_blank" class="ke-link">Andrea Romano</a> <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/#affiliation-6" target="_blank" class="ke-link">6</a>, <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/?term=Pijnenborg+JMA&cauthor_id=30621045" target="_blank" class="ke-link">Johanna M A Pijnenborg</a> <a style="color: #608cba;" href="https://pubmed.ncbi.nlm.nih.gov/30621045/#affiliation-7" target="_blank" class="ke-link">7</a>Affiliations PMID: 30621045 PMCID: <a style="color: #608cba;" href="http://www.ncbi.nlm.nih.gov/pmc/articles/pmc6356449/" target="_blank" class="ke-link">PMC6356449</a> DOI: <a style="color: #608cba;" href="https://doi.org/10.3390/md17010032" target="_blank" class="ke-link">10.3390/md17010032</a>Free PMC articleAbstractFucoidan is a natural derived compound found in different species of brown algae and in some animals, that has gained attention for its anticancer properties. However, the exact mechanism of action is currently unknown. Therefore, this review will address fucoidans structure, the bioavailability, and all known different pathways affected by fucoidan, in order to formulate fucoidans structure and activity in relation to its anti-cancer mechanisms. The general bioactivity of fucoidan is difficult to establish due to factors like species-related structural diversity, growth conditions, and the extraction method. The main pathways influenced by fucoidan are the PI3K/AKT, the MAPK pathway, and the caspase pathway. PTEN seems to be important in the fucoidan-mediated effect on the AKT pathway. Furthermore, the interaction with VEGF, BMP, TGF-β, and estrogen receptors are discussed. Also, fucoidan as an adjunct seems to have beneficial effects, for both the enhanced effectiveness of chemotherapy and reduced toxicity in healthy cells. In conclusion, the multipotent character of fucoidan is promising in future anti-cancer treatment. However, there is a need for more specified studies of the structure⁻activity relationship of fucoidan from the most promising seaweed species.<hr data-ke-style="style1">항암 기전과 관련된 후코이단 구조 및 활성설명후코이단은 여러 종의 갈조류와 일부 동물에서 발견되는 천연 유래 화합물로 항암 특성으로 주목을 받고 있습니다. 그러나 정확한 작용 메커니즘은 현재 알려져 있지 않습니다. 따라서 이 검토에서는 후코이단의 항암 메커니즘과 관련된 후코이단 구조 및 활성을 공식화하기 위해 후코이단 구조, 생체 이용률 및 후코이단에 의해 영향을 받는 알려진 모든 다른 경로를 다룰 것입니다. 후코이단의 일반적인 생물학적 활성은 종 관련 구조적 다양성, 성장 조건 및 추출 방법과 같은 요인으로 인해 확립하기 어렵습니다. 후코이단의 영향을 받는 주요 경로는 PI3K/AKT, MAPK 경로 및 카스파제 경로입니다. PTEN은 AKT 경로에 대한 후코이단 매개 효과에서 중요한 것으로 보입니다. 또한 VEGF, BMP, TGF-β 및 에스트로겐 수용체와의 상호 작용에 대해 논의합니다. 또한 후코이단을 부가적으로 사용하면 화학 요법의 효과를 높이고 건강한 세포의 독성을 줄이는 유익한 효과가 있는 것으로 보입니다. 결론적으로, 후코이단의 다능성은 미래의 항암 치료에 유망합니다. 그러나 가장 유망한 해조류 종에서 후코이단의 구조⁻활성 관계에 대한 보다 구체적인 연구가 필요합니다.<hr data-ke-style="style1">고순도 와우 후코이단의 특권을 누려보세요전화 주시면 성심성의껏 상담해 드립니다.<div class="figure-img" data-ke-type="image" data-ke-style="alignCenter" data-ke-mobilestyle="widthOrigin"><img src="https://t1.daumcdn.net/cafeattach/1YJ2q/448d80c2b827c09ba44d10a4417cec9f4ec03495" class="txc-image" data-img-src="https://t1.daumcdn.net/cafeattach/1YJ2q/448d80c2b827c09ba44d10a4417cec9f4ec03495" data-origin-width="740" data-origin-height="224"></div><div class="figure-img" data-ke-type="image" data-ke-style="alignCenter" data-ke-mobilestyle="widthOrigin"><img src="https://t1.daumcdn.net/cafeattach/1YJ2q/92a1c533dd3e194374528cc72d4201c918804af2" class="txc-image" data-img-src="https://t1.daumcdn.net/cafeattach/1YJ2q/92a1c533dd3e194374528cc72d4201c918804af2" data-origin-width="740" data-origin-height="373"></div><div class="figure-img" data-ke-type="image" data-ke-style="alignCenter" data-ke-mobilestyle="widthOrigin"><img src="https://t1.daumcdn.net/cafeattach/1YJ2q/d3fd58262c4c9dcd83a3e0445db2ca6ee2f57988" class="txc-image" data-img-src="https://t1.daumcdn.net/cafeattach/1YJ2q/d3fd58262c4c9dcd83a3e0445db2ca6ee2f57988" data-origin-width="740" data-origin-height="215"></div><a href="https://blog.naver.com/wowntp/221521277875" target="_blank" class="ke-link">https://blog.naver.com/wowntp/221521277875</a><div class="figure-open" contenteditable="false" data-ke-type="opengraph" data-ke-align="alignCenter" data-og-type="website" data-og-title="와우후코이단 과립스틱 정제품 소개" data-og-description="와우후코이단 과립스틱 정제품 소개 와우 후코이단(과립) 스틱 제품 식품유형 : 고형차 내용량&n..." data-og-host="blog.naver.com" data-og-source-url="https://blog.naver.com/wowntp/221521277875" data-og-url="https://blog.naver.com/wowntp/221521277875" data-og-image="https://scrap.kakaocdn.net/dn/QKc0o/hyTirXLYEo/FLAroAXoaKyzM5KYLkGqaK/img.jpg?width=700&height=873&face=0_0_700_873"><a href="https://blog.naver.com/wowntp/221521277875" target="_blank" data-source-url="https://blog.naver.com/wowntp/221521277875"><div class="og-image"><img src="https://scrap.kakaocdn.net/dn/QKc0o/hyTirXLYEo/FLAroAXoaKyzM5KYLkGqaK/img.jpg?width=700&height=873&face=0_0_700_873" alt="" xxonerror="this.src="//img1.kakaocdn.net/thumb/C200x200/?fname=https%3A%2F%2Ft1.daumcdn.net%2Fcafe_image%2Fcafe_meta_image_190529.png""></div><div class="og-text">와우후코이단 과립스틱 정제품 소개와우후코이단 과립스틱 정제품 소개 와우 후코이단(과립) 스틱 제품 식품유형 : 고형차 내용량&n...blog.naver.com</div></a></div><a href="https://blog.naver.com/wowntp/223078119991" target="_blank" class="ke-link">https://blog.naver.com/wowntp/223078119991</a><div class="figure-open" contenteditable="false" data-ke-type="opengraph" data-ke-align="alignCenter" data-og-type="website" data-og-title="항암 기전과 관련된 후코이단 구조 및 활성" data-og-description="출쳐: Fucoidan Structure and Activity in Relation to Anti-Cancer Mechanisms - PubMed (nih.g..." data-og-host="blog.naver.com" data-og-source-url="https://blog.naver.com/wowntp/223078119991" data-og-url="https://blog.naver.com/wowntp/223078119991" data-og-image="https://scrap.kakaocdn.net/dn/Vievo/hyTixDGMEm/aksvE9kZ5hANRpwfPbnqc0/img.png?width=270&height=270&face=0_0_270_270"><a href="https://blog.naver.com/wowntp/223078119991" target="_blank" data-source-url="https://blog.naver.com/wowntp/223078119991"><div class="og-image"><img src="https://scrap.kakaocdn.net/dn/Vievo/hyTixDGMEm/aksvE9kZ5hANRpwfPbnqc0/img.png?width=270&height=270&face=0_0_270_270" alt="" xxonerror="this.src="//img1.kakaocdn.net/thumb/C200x200/?fname=https%3A%2F%2Ft1.daumcdn.net%2Fcafe_image%2Fcafe_meta_image_190529.png""></div><div class="og-text">항암 기전과 관련된 후코이단 구조 및 활성출쳐: Fucoidan Structure and Activity in Relation to Anti-Cancer Mechanisms - PubMed (nih.g...blog.naver.com</div></a></div>