至今中國總共有三間生物公司的疫苗踏入Phase3狀態,包括為Cansino、Sinovac及Sinopharm。1124Please respect copyright.PENANAWbNQBlZTCH
1124Please respect copyright.PENANA8KV8hILP4m
其中Sinovac (Phase 3地點:巴西)及國營的Sinopharm(Ref2) (Phase 3地點:阿聯酋)兩間均用上滅活病毒疫苗(Inactivated Virus Vaccine)設計,本文將會就此作深入探討。1124Please respect copyright.PENANAuReRDId5fh
1124Please respect copyright.PENANAEPTX0qbd7z
1124Please respect copyright.PENANA4sDCNdH113
(圖1)滅活病毒疫苗,顧名思義就是將病毒除去感染能力,當作疫苗之用。1124Please respect copyright.PENANAAwgDu1OeIC
1124Please respect copyright.PENANAybNj1pChlD
下列為Sinovac製作滅活病毒疫苗的扼要流程(Ref3)1124Please respect copyright.PENANAAqoWBQbfbd
1124Please respect copyright.PENANAHGenilTyQ2
1.從一名進入深切治療部的中國病患肺部體液中抽取病毒。1124Please respect copyright.PENANAAG5CMTEp2r
1124Please respect copyright.PENANApCntBInWqh
2.經過數輪實驗室細胞的培植,使病毒數量增加。1124Please respect copyright.PENANAoIRVs0OpRD
1124Please respect copyright.PENANA6E5lF9BS0V
3.加入化學物消減病毒的感染力和多重過濾,取得弱化的武肺病毒。1124Please respect copyright.PENANA2QMLs975bs
1124Please respect copyright.PENANAR7sJp7k5KF
4.將其製成可注射的疫苗。1124Please respect copyright.PENANA6lEUPgpz0u
1124Please respect copyright.PENANA9nRjAegeYg
1124Please respect copyright.PENANAMVwXoqtFH2
1124Please respect copyright.PENANASMrZK5mZWw
(圖2)將滅活病毒疫苗注射到身體後,身體的免疫細胞便會製作對應弱化病毒的抗體。1124Please respect copyright.PENANAZwcpp7en21
1124Please respect copyright.PENANAl5pwYk15h6
在繼續講述抗體之前,可先閱覽(圖3)溫故知新一下武肺入侵人體細胞的簡要過程,又或者可以到之前我所寫的文章觀看略為詳細的版本。1124Please respect copyright.PENANAlSY7lvgSOi
https://www.penana.com/article/4665681124Please respect copyright.PENANA9uxMdcNTG9
1124Please respect copyright.PENANAzMd8WBxghH
1124Please respect copyright.PENANAosMQwglnCS
1124Please respect copyright.PENANAti2c43rKcT
1124Please respect copyright.PENANAXAhLycPTpp
1124Please respect copyright.PENANA3Ktk5F8Eqs
1124Please respect copyright.PENANAB2LEn3Vzw8
1124Please respect copyright.PENANAr2bA1OGa2y
1124Please respect copyright.PENANAWyDv5MUdEV
(圖4)抗體(Antibody)頂多只能阻礙病毒進入細胞或者指示其他免疫細胞前來清滅病毒,並無獨立能力清滅病毒。1124Please respect copyright.PENANAQvUwy4TZmA
1124Please respect copyright.PENANAP7SRywGyj7
而能夠阻礙病毒進入細胞的抗體,我們將稱之為Neutralizing Antibody,而圖中已列出其中的兩款機制。1124Please respect copyright.PENANA4nlTYs6vha
1124Please respect copyright.PENANAyVY1d73usc
1.抗體與病毒的S protein合併,1124Please respect copyright.PENANAGaKUaJTHJl
防止條件1的達成。1124Please respect copyright.PENANAH8n00tmrUr
1124Please respect copyright.PENANAjKmsbs51wt
2.抗體與病毒其他位置合併,1124Please respect copyright.PENANAa1sUZPTAY5
防止條件3的達成。1124Please respect copyright.PENANAkikf7gMI6F
1124Please respect copyright.PENANAFFO7PXdKgu
1124Please respect copyright.PENANArTd59nnpSl
1124Please respect copyright.PENANAvVTqIkZAaD
(圖5)用上滅活病毒疫苗的話,抗體的製作便會針對病毒的各個位置而進行。1124Please respect copyright.PENANAXEQUkKFgi0
基於並非所有抗體也能夠拼合在病毒的關鍵位置,不能夠阻礙病毒進入細胞的抗體,我們將稱之為Non-Neutralizing Antibody。1124Please respect copyright.PENANA0PP5Ia55oe
1124Please respect copyright.PENANA5lbPytY1SG
不過,就算是Non-Neutralizing Antibody,它亦能有能力標示病毒,指引其他免疫細胞前來清滅病毒。1124Please respect copyright.PENANAh5nxj6iMM3
1124Please respect copyright.PENANA8j73L84U2P
1124Please respect copyright.PENANAdPxRLf1cHX
1124Please respect copyright.PENANA0TA2uD0xLd
1124Please respect copyright.PENANAsa5dqEwopX
(圖6)Non-Neutralizing Antibody的出現,將會引伸出一個名為Antibody Dependent Enhancement(ADE)的重要問題;1124Please respect copyright.PENANA4hY6dbhSm3
簡單來說,就是抗體適得其反地協助病毒入侵人體細胞。1124Please respect copyright.PENANAyGjbSuZw9O
1124Please respect copyright.PENANAHLGV6b5JuK
免疫細胞的表面上,有著接收器識辨抗體的某個區域。1124Please respect copyright.PENANA1K2suCUVln
1124Please respect copyright.PENANA6a4Hs9n8xE
但若果有過多Non-Neutralizing Antibody黏在病毒裡頭的話,病毒就有機會可以無視之前那3條法則,不需要經過ACE2,而是透過免疫細胞的表面上識辨抗體的接收器進入細胞。1124Please respect copyright.PENANARbjtpUYTlb
1124Please respect copyright.PENANAEContT0aMD
換句話說,抗體在這情況下變相成為幫兇或者25仔,輔助病毒進入細胞,這現象我們稱之為ADE。1124Please respect copyright.PENANA6Kz9DwoYwK
1124Please respect copyright.PENANAdWWD3MbTet
1124Please respect copyright.PENANARnSeE0M4XH
1124Please respect copyright.PENANAoI01QdNUFh
(圖7)武肺病毒進入細胞後,需要切割S protein才能夠開始進行繁殖工作。1124Please respect copyright.PENANARyuOiYac6x
所以就算有Non-Neutralizing antibody做25仔,如果病毒幸運地有Neutralizing antibody保護S protein免受切割的話,病毒依舊無法作惡。1124Please respect copyright.PENANAeWkzhNA8pu
1124Please respect copyright.PENANAYtI9oCOo8D
但若果無Neutralizing antibody保護的話,病毒就會利用免疫細胞作為寄主,避開一切免疫機制,大量製造病毒。1124Please respect copyright.PENANANerWRcOdxj
情形就好像本身理應維護法紀的警察,突然之間搖身一變成為罪惡的溫床,窩藏及協助罪犯(病毒)滋生,導致情況一發不可收拾。1124Please respect copyright.PENANArYuouaV3Ce
1124Please respect copyright.PENANAlR03h6El18
1124Please respect copyright.PENANAqmfkb11Lne
1124Please respect copyright.PENANAhdn5t5IwBU
(圖8)ADE這現象,科學家一直以來均有記錄及研究。(Ref4)1124Please respect copyright.PENANA7qf4osMdGJ
以登革熱為例,病人染上登革熱病毒(Dengue Virus)的話,身體便會製造登革熱病毒抗體。1124Please respect copyright.PENANATgsY0B9jsn
但基於登革熱病毒與寨卡病毒(Zika Virus)有頗為相似的地方,某部份的登革熱病毒抗體「幸運地」便成為寨卡病毒的Non-Neutralizing Antibody,透過ADE幫忙寨卡病毒入侵人體。1124Please respect copyright.PENANAx4nnuaj4Sn
1124Please respect copyright.PENANADsi8T9Pgv8
亦即是說,擁有登革熱病毒抗體的人反而更有機會受到寨卡病毒入侵。1124Please respect copyright.PENANArmFF7CFSWh
1124Please respect copyright.PENANAXT6HjQDlxh
1124Please respect copyright.PENANAutgbfXs6mK
1124Please respect copyright.PENANAkkomjtib2p
(圖9)有研究指出,03年SARS病毒亦會依靠未曾上市的疫苗所產生出的Non-Neutralizing Antibody,不需經過ACE2便能入侵免疫細胞。(Ref5)1124Please respect copyright.PENANAU6ZlD2ZHgH
1124Please respect copyright.PENANABf8rGlOVXP
武肺會否出現同樣現象,暫時尚未清楚。1124Please respect copyright.PENANAHT0WASn1fZ
1124Please respect copyright.PENANAO3j4ugOoEL
只不過各國進行Phase3中的疫苗,大多也是針對著武肺病毒S protein位置而設計,故此出現Non-Neutralizing antibody將會比用上整個武肺病毒而作為疫苗設計的那兩間公司為低,ADE的機率亦相對減少。1124Please respect copyright.PENANA89SI8vebyA
1124Please respect copyright.PENANAGx893U09y6
當然,另一方面來看,中國那兩間公司因為用上整個武肺病毒來設計疫苗,理論上所產生的抗體數量及濃度亦會為高,抵抗的效果亦會相對顯著,但ADE的機率出現亦會相對為高。1124Please respect copyright.PENANAp79i7QQh5y
1124Please respect copyright.PENANAYqVcvGS4F9
1124Please respect copyright.PENANATXZsG1VE1e
美國Moderna已表示Phase3的報告將會探討ADE的可能,但願中國Sinovac及國營Sinopharm的Phase3報告,也會在ADE方面進行深入探討吧!1124Please respect copyright.PENANAT4RaEZtJtH
1124Please respect copyright.PENANANDy32yPiHe
如果想我快啲出文的話,請入去Penana網站科普專欄–薯不揀單俾一個like以及Bookmark,這對我非常之重要。1124Please respect copyright.PENANAU15jTDlm6e
1124Please respect copyright.PENANA47ulgdmAH6
Link: https://www.penana.com/story/66244/%E7%A7%91%E6%99%AE%E5%B0%88%E6%AC%84-%E8%96%AF%E4%B8%8D%E6%8F%80%E5%96%AE/toc1124Please respect copyright.PENANAo2bvN98J9f
1124Please respect copyright.PENANA98Csqciqpz
同時亦可以在Penana網站裡按「買一嚿/半嚿薯仔」,以課金的方式推動我繼續搜羅資料寫文,多謝。1124Please respect copyright.PENANAhpvd80XcO0
1124Please respect copyright.PENANAXUJWc9MiaA
Link:1124Please respect copyright.PENANATiPrLa0mqA
https://www.penana.com/user/27349/%E8%96%AF%E4%BB%94%E8%81%9E%E8%8C%B1%E8%8E%89/portfolio1124Please respect copyright.PENANAjCDmLz2Zi4
1124Please respect copyright.PENANA6V9djdBo5M
1124Please respect copyright.PENANAf3AULVyezo
有興趣接收科普資訊的話,歡迎follow IG: potatopigtongue。1124Please respect copyright.PENANAYlQ8HcQ6vb
1124Please respect copyright.PENANAYzTVwYv0Zt
1124Please respect copyright.PENANAOekuPyJ3I3
Ref2:https://jamanetwork.com/journals/jama/fullarticle/2769612?fbclid=IwAR0sp9eU5V9FOzuLjz6ERw6LRFm-1yx3MJt1OEgqBDQKW1GA5mQeIIi5J7E1124Please respect copyright.PENANADqVXX1X6iZ
Ref3:https://science.sciencemag.org/content/369/6499/77?fbclid=IwAR29zOO06gVsQAC2jLU2uMJi-qcYbniz108Y4kcaWOr1iNuQyVM3jCFMHa41124Please respect copyright.PENANASIxKVt1XC4
Ref4:https://www.nature.com/articles/s41586-020-2538-8.pdf1124Please respect copyright.PENANA6p6ngwzouw
Ref5:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7115629/1124Please respect copyright.PENANAxzwosOXyax
arrow_back
科普專欄–薯不揀單
more_vert
-
info_outline Info
-
toc Table of Contents
-
share Share
-
format_color_text Display Settings
-
exposure_plus_1 Recommend
-
Sponsor
-
report_problem Report
-
account_circle Login
Search stories, writers or societies
Continue ReadingClear All
What Others Are ReadingRefresh
Never miss what's happening on Penana!
科普專欄–薯不揀單
Author:
薯仔聞茱莉
薯仔聞茱莉
ISSUE #23
<<深入淺出–中國兩隻臨床Phase3中疫苗的潛在反效果>>
LIKES 6
READS 1120
BOOKMARKS 151
campaign
Request update 0
Sponsor
Login with Facebook
or Sign up/Login to comment or bookmark! Click to load the next chapter
X
After each update request, the author will receive a notification!
smartphone100 → Request update
×
Write down what you like about the story
and then Add to home screen.