激光生物学报
激光生物學報
격광생물학보
ACTA LASER BIOLOGY SINICA
2014年
3期
211-217
,共7页
胡丰%唐宁宁%刘灿%唐园园%王少华%尹朝奇%周春姣%周建大%曾蔚
鬍豐%唐寧寧%劉燦%唐園園%王少華%尹朝奇%週春姣%週建大%曾蔚
호봉%당저저%류찬%당완완%왕소화%윤조기%주춘교%주건대%증위
Fe3 O4%纳米颗粒%叶酸%肿瘤细胞%细胞标记
Fe3 O4%納米顆粒%葉痠%腫瘤細胞%細胞標記
Fe3 O4%납미과립%협산%종류세포%세포표기
Fe3 O4%nanoparticles%folic acid%tumor cell%cell marker
目的:研究叶酸偶联的超顺磁Fe3 O4纳米颗粒对活体肝癌标记效果和MRI成像功能。方法:以铁盐、十二烷基苯磺酸和3-氨基丙基3-乙氧基硅烷为原料,通过共沉淀法合成了APTES修饰的超顺磁Fe3 O4纳米颗粒,通过酰胺化法合成了叶酸偶联的超顺磁Fe3 O4纳米颗粒,以X射线衍射仪、透射电镜、红外光谱仪、振动样品磁强计、动态光散射仪对合成材料进行表征,采用SRB法对叶酸偶联的超顺磁Fe3 O4纳米颗粒细胞进行安全性检测,同时建立活体瘤鼠动物模型,对其在叶酸偶联的超顺磁Fe3 O4纳米颗粒标记前后进行MRI成像对比检测,每个肿瘤组织块各取2套切片,分别行苏木素-伊红染色和普鲁士蓝染色,观察肿瘤组织光镜下形态及组织内含Fe情况。结果:所制备的叶酸偶联的Fe3 O4纳米颗粒为立方相的Fe3 O4,粒径约8 nm左右,水合直径25.7 nm,呈近似球形,表面分布有羧基等功能基团,呈超顺磁特性,饱和磁化强度为51 emu/g Fe。叶酸偶联的超顺磁Fe3 O4纳米颗粒对人皮肤成纤维细胞(HSF)的生长与生理盐水对照组的影响一样,无明显抑制细胞生长的表现。同时,磁共振成像和染色结果均显示肿瘤的存在。结论:叶酸偶联的超顺磁Fe3 O4纳米颗粒,不仅细胞毒性小,而且因其表面的叶酸与叶酸受体之间的高强结合力。同时,它能通过这种结合作用被高效介导进入肿瘤细胞内,增强MRI成像中肿瘤组织与周围正常组织的对比度,有利于肿瘤细胞的标记、示踪和靶向检测,是一种很有应用前景的肿瘤细胞靶向检测物质。
目的:研究葉痠偶聯的超順磁Fe3 O4納米顆粒對活體肝癌標記效果和MRI成像功能。方法:以鐵鹽、十二烷基苯磺痠和3-氨基丙基3-乙氧基硅烷為原料,通過共沉澱法閤成瞭APTES脩飾的超順磁Fe3 O4納米顆粒,通過酰胺化法閤成瞭葉痠偶聯的超順磁Fe3 O4納米顆粒,以X射線衍射儀、透射電鏡、紅外光譜儀、振動樣品磁彊計、動態光散射儀對閤成材料進行錶徵,採用SRB法對葉痠偶聯的超順磁Fe3 O4納米顆粒細胞進行安全性檢測,同時建立活體瘤鼠動物模型,對其在葉痠偶聯的超順磁Fe3 O4納米顆粒標記前後進行MRI成像對比檢測,每箇腫瘤組織塊各取2套切片,分彆行囌木素-伊紅染色和普魯士藍染色,觀察腫瘤組織光鏡下形態及組織內含Fe情況。結果:所製備的葉痠偶聯的Fe3 O4納米顆粒為立方相的Fe3 O4,粒徑約8 nm左右,水閤直徑25.7 nm,呈近似毬形,錶麵分佈有羧基等功能基糰,呈超順磁特性,飽和磁化彊度為51 emu/g Fe。葉痠偶聯的超順磁Fe3 O4納米顆粒對人皮膚成纖維細胞(HSF)的生長與生理鹽水對照組的影響一樣,無明顯抑製細胞生長的錶現。同時,磁共振成像和染色結果均顯示腫瘤的存在。結論:葉痠偶聯的超順磁Fe3 O4納米顆粒,不僅細胞毒性小,而且因其錶麵的葉痠與葉痠受體之間的高彊結閤力。同時,它能通過這種結閤作用被高效介導進入腫瘤細胞內,增彊MRI成像中腫瘤組織與週圍正常組織的對比度,有利于腫瘤細胞的標記、示蹤和靶嚮檢測,是一種很有應用前景的腫瘤細胞靶嚮檢測物質。
목적:연구협산우련적초순자Fe3 O4납미과립대활체간암표기효과화MRI성상공능。방법:이철염、십이완기분광산화3-안기병기3-을양기규완위원료,통과공침정법합성료APTES수식적초순자Fe3 O4납미과립,통과선알화법합성료협산우련적초순자Fe3 O4납미과립,이X사선연사의、투사전경、홍외광보의、진동양품자강계、동태광산사의대합성재료진행표정,채용SRB법대협산우련적초순자Fe3 O4납미과립세포진행안전성검측,동시건립활체류서동물모형,대기재협산우련적초순자Fe3 O4납미과립표기전후진행MRI성상대비검측,매개종류조직괴각취2투절편,분별행소목소-이홍염색화보로사람염색,관찰종류조직광경하형태급조직내함Fe정황。결과:소제비적협산우련적Fe3 O4납미과립위립방상적Fe3 O4,립경약8 nm좌우,수합직경25.7 nm,정근사구형,표면분포유최기등공능기단,정초순자특성,포화자화강도위51 emu/g Fe。협산우련적초순자Fe3 O4납미과립대인피부성섬유세포(HSF)적생장여생리염수대조조적영향일양,무명현억제세포생장적표현。동시,자공진성상화염색결과균현시종류적존재。결론:협산우련적초순자Fe3 O4납미과립,불부세포독성소,이차인기표면적협산여협산수체지간적고강결합력。동시,타능통과저충결합작용피고효개도진입종류세포내,증강MRI성상중종류조직여주위정상조직적대비도,유리우종류세포적표기、시종화파향검측,시일충흔유응용전경적종류세포파향검측물질。
Objective:To research the labeling effect of folate-conjugated Fe3 O4 nanoparticles on hepatocellular carci-noma in vivo and the function of MRI imaging.Methods:ATPES-modified Fe3 O4 nanoparticles were synthesized through co-precipitation action using iron salt,sodium dodecyl benzene sulfonate and 3-Aminopropyltriethoxysilane as raw materi-als.Folate-conjugated superparamagnetic Fe3 O4 nanoparticles were synthesized through amide action.The synthesized folate-conjugated Fe3 O4 nanoparticles were characterized by X-ray diffraction diffractometer,transmission electron micro-scope,FT-IR spectrometer,vibrating sample magnetometer,and dynamic light scattering instrument.Using SRB meth-od to conduct the safety detection of folate-conjugated superparamagnetic Fe3 O4 nanoparticles.Meanwhile,living tumor rat models marked before and after by folate-conjugated superparamagnetic Fe3 O4 nanoparticles were established to con-duct a MRI imaging comparison test.Two sets of slices for hematoxylin-eosin staining and Prussian blue staining were collected from each tumor sample.The tumor morphology and Fe content were determined under a light microscope.Re-sults:The prepared folate-conjugated superparamagnetic Fe3 O4 nanoparticles are cubic-phase Fe3 O4 with a particle size of about 8 nm and hydrated diameter of 25 .7 nm,and the shape is close to spherical.They cannot significantly inhibit human skin fibroblast cell growth compared with normal saline.Meanwile,the results of magnetic resonance imaging and dyeing indicate the presence of tumor.Conclusion:Folate-conjugated superparamagnetic Fe3 O4 nanoparticles are not on-ly with low toxicity but also with high binding power between folic acid receptor and folate on the surface of it.Meanwile, the folate-conjugated superparamagnetic Fe3 O4 nanoparticles could be effectively mediated into the tumor cells through the binding of folate and folic acid receptor,enhancing the signal contrast of tumor tissue and surrounding normal tissue in MRI imaging.It is convenient to use folate-conjugated superparamagnetic Fe3 O4 nanoparticles for tumor cells labe-ling,tracing,MRI target detection.It is a very promising targeted testing material for tumor cell.
