Nanoparticles for targeted delivery of therapeutics and small interfering RNAs in hepatocellular carcinoma

Hepatocellular carcinoma(HCC) is the 5th most common malignancy which is responsible for more than half million annual mortalities; also, it is the third leading cause of cancer related death. Unfavorablesystemic side-effects of chemotherapeutic agents and susceptibility to the degradation of small interfering RNAs(si RNAs), which can knock down a specific gene involved in the disease, have hampered their clinical application. So, it could be beneficial to develop an efficient carrier for the stabilization and specific delivery of drugs and si RNA to cells. Targeted nanoparticles have gained considerable attention as an efficient drug and gene delivery system, which is due to their capability in achieving the highest accumulation of cytotoxic agents in tumor tissue, modifiable drug pharmacokinetic- and bio-distribution, improved effectiveness of treatment, and limited sideeffects. Recent studies have shed more light on the advantages of novel drug loaded carrier systems vs free drugs. Most of the animal studies have reported improvement in treatment efficacy and survival rate using novel carrier systems. Targeted delivery may be achieved passively or actively. In passive targeting, no ligand as homing device is used, while targeting is achieved by incorporating the therapeutic agent into a macromolecule or nanoparticle that passively reaches the target organ. However, in active targeting, the therapeutic agent or carrier system is conjugated to a tissue or cell-specific receptor which is overexpressed in a special malignancy using a ligand called a homing device. This review covers a broad spectrum of targeted nanoparticles as therapeutic and nonviral si RNA delivery systems, which are developed for enhanced cellular uptake and targeted gene silencing in vitro and in vivo and their characteristics and opportunities for the clinical applications of drugs and therapeutic si RNA are discussed in this article. Asialoglycoprotein receptors, low-density lipoprotein, ganglioside GM1 cell surface ligand, epidermal growth factor receptor receptors, monoclonal antibodies, retinoic acid receptors, integrin receptors targeted by Arg-Gly-Asp peptide, folate, and transferrin receptors are the most widely studied cell surface receptors which are used for the site specific delivery of drugs and si RNA-based therapeutics in HCC and discussed in detail in this article.

Therapeutic potential of small interfering RNAs/micro interfering RNA in hepatocellular carcinoma

Hepatocellular carcinoma(HCC) is the predominant form of primary liver cancer and represents the third leading cause of cancer-related death worldwide. Current available therapeutic approaches are poorly effective,especially for the advanced forms of the disease. In the last year,short double stranded RNA molecules termed small interfering RNAs(si RNAs) and micro interfering RNAs(mi RNA),emerged as interesting molecules with potential therapeutic value for HCC. The practical use of these molecules is however limited by the identification of optimal molecular targets and especially by the lack of effective and targeted HCC delivery systems. Here we focus our discussion on the most recent advances in the identification of si RNAs/mi RNAs molecular targets and on the development of suitable si RNA/mi RNAs delivery systems.

Inhibition of genes expression of SARS coronavirus by synthetic small interfering RNAs

RNA interference (RNAi) is triggered by the presence of a double-stranded RNA (dsRNA), and results in the silencing of homologous gene expression through the specific degradation of an mRNA containing the same sequence. dsRNAmediated RNAi can be used in a wide variety of eucaryotes to induce the sequence-specific inhibition of gene expression.Synthetic 21-23 nucleotide (nt) small interfering RNA (siRNA) with 2 nt 3' overhangs was recently found to mediate efficient sequence-specific mRNA degradation in mammalian cells. Here, we studied the effects of synthetic siRNA duplexes targeted to SARS coronavirus structural proteins E, M, and N in a cell culture system. Among total 26 siRNA duplexes, we obtained 3 siRNA duplexes which could sequence-specifically reduce target genes expression over 80％ at the concentration of 60 nM in Vero E6 cells. The downregulation effect was in correlation with the concentrations of the siRNA duplexes in a range of 0～60 nM. Our results also showed that many inactive siRNA duplexes may be brought to life simply by unpairing the 5' end of the antisense strands. Results suggest that siRNA is capable of inhibiting SARS coronavirus genes expression and thus may be a new therapeutic strategy for treatment of SARS.

Combination of small interfering RNAs mediates greater suppression on hepatitis B virus cccDNA in HepG2.2.15 cells

AIM： To observe the inhibition of hepatitis B virus （HBV） replication and expression in HepG2.2.15 cells by combination of small interfering RNAs （siRNAs）. METHODS： Recombinant plasmid psiI-HBV was constructed and transfected into HepG2.2.15 cells. At 48 h, 72 h and 96 h after transfection, culture media were collected and cells were harvested for HBV replication assay. HBsAg and HBeAg in the cell culture medium were detected by enzyme-linked immunoadsorbent assay （ELISA）. Intracellular viral DNA and covalently closed circular DNA （cccDNA） were quantified by real-time polymerase chain reaction （PCR）. HBV viral mRNA was reverse transcribed and quantified by reverse-transcript PCR （RT-PCR）. RESULTS： siRNAs showed marked anti-HBV effects. siRNAs could specifically inhibit the expression of HBsAg and the replication of HBV DNA in a dosedependent manner. Furthermore, combination of siRNAs, compared with individual use of each siRNA, exerted a stronger inhibition on antigen expression and viral replication. More importantlycombination of siRNAs significantly suppressed HBV cccDNA amplification. CONCLUSION： Combination of siRNAs mediates a stronger inhibition on viral replication and antigenexpression in HepG2.2.15 cells, especially on cccDNA amplification.

siRNA纳米递送系统在类风湿性关节炎治疗中的研究进展

类风湿性关节炎是一种自身免疫性疾病,其病因复杂,目前尚未有很好的治疗方法,长期服用抗风湿药物也带来诸多副作用。RNA干扰技术是指通过外源性或内源性的双链RNA在体内诱导靶基因m RNA产生特异性降解,进而引起不同水平的基因沉默,具有高效、高特异性、低毒等优点,在生物医药领域有着巨大潜力。小干扰RNA(si RNA)作为RNA干扰技术的重要效应分子,在治疗类风湿关节炎方面具有巨大潜力。本文综述了siRNA递送系统用于治疗类风湿关节炎的最新研究进展,阐明了基于siRNA纳米给药系统治疗类风湿关节炎的优势,并展望了未来siRNA递送的发展方向。

Small interfering RNA targeting PGC-1α inhibits VEGF expression and tube formation in human retinal vascular endothelial cells

AIMTo determine whether small interfering RNA (siRNA) of PGC-1α could inhibit vascular endothelial growth factor (VEGF) expression and tube formation in human retinal vascular endothelial cells (hRVECs).METHODShRVECs transfected with peroxisome proliferator-activated receptor-γ coactivator-1α (PGC-1α) siRNA were incubated for 24h and then placed into a normoxic (20%, O2) or hypoxic (1%, O2) environment for another 16h. PGC-1α mRNA and protein levels were detected by real-time PCR and Western blot. VEGF mRNA and protein levels were detected by real-time PCR and ELISA. Cell proliferation was evaluated by BrdU incorporation assay. Forty-eight hours after siRNA transfection, hRVECs were planted into Matrigel-coated plates and cultured under normoxic (20%, O2) or hypoxic (1%, O2) conditions for another 48h. The tube formation of hRVECs was observed under an optical microscope and quantified by counting the number of branch points and calculating the total tube length.RESULTSPGC-1α mRNA and protein levels were significantly reduced by PGC-1α siRNA, and VEGF mRNA and protein levels also decreased significantly. The percentage of BrdU-labeled cells in siPGC-1α groups were significantly decreased compared with control siRNA groups under normoxia and hypoxia in cell proliferation assay. In the tube formation assay, PGC-1α siRNA treated cells formed significantly fewer tubes.CONCLUSIONBlocking PGC-1α expression can inhibit VEGF expression in hRVECs and inhibit their ability to form tubes under both normoxic and hypoxic conditions.

KNOCKDOWN OF SURVIVIN EXPRESSION BY SMALL INTERFERING RNA SUPPRESSES PROLIFERATION OF TWO HUMAN CANCER CELL LINES

Objective To construct an expression vector of small interfering RNA （siRNA） against survivin and observe its effects on survivin expression and proliferation of human pancreatic cancer cell line PC-2 and breast cancer cell line MCF-7. Methods Constructed an expression vector of siRNA against survivin and transfected it into PC-2 and MCF-7 cells using lipofectamine^TM 2000. The expression of survivin was detected by semi-quanfifive RT-PCR and immunohistochemistry, and its effects on proliferation of PC-2 and MCF-7 cells were detected by MTT assay. Results The introduction of sequence-specific siRNA could efficiently suppress survivin expression at both mRNA and protein levels in the two cancer cell lines. In PC-2 cells, the expression inhibition rates were 81.25% at mRNA level and 74.24% at protein level In MCF-7 cells, the expression inhibition rates were 64.91% at mRNA level and 79. 72% at protein level The proliferation of PC-2 and MCF-7 cells was also suppressed, and24 and 48 hours after the cells were reseeded, the proliferation inhibition rates of PC-2 cells were 28. 00% and 33. 38%, and that of MCF-7 cells were 31.58% and 33.02%, respectively. Conclusions The expression vector of siRNA against survivin can block survivin expression in PC-2 and MCF-7 cells efficiently and specifically. Down regulation of survivin expression can suppress proliferation of PC-2 and MCF-7 cells. Survivin RNAi may have potential value in gene therapy of human cancers.

Progress of Targeting Transforming Growth Factor-β1 Small Interfering RNA in Liver Fibrosis

Liver fibrosis is a common pathological consequence of a variety of chronic stimuli, including viral, autoimmune, drug-induced, cholestatic and metabolic diseases. Fibrosis is driven by a dynamic process involving increased synthesis of matrix components and a failure of physiological mechanisms of matrix turnover. Activation of hepatic stellate cells(HSCs) remains a central event in fibrosis. HSCs are the main source of extracellular matrix(ECM). Transforming growth factor-beta(TGF-β), which is the fibrogenic master cytokine, can induce the activation of HSCs to produce a large amount of ECM, and is capable of inducing apoptosis of liver cells. RNA interference(RNAi) is a novel gene disruption technology. Studies have shown that small interfering RNA(si RNA) targeting TGF-β1 may inhibit the activation and proliferation of HSCs, suppress ECM synthesis and block liver fibrosis. TGF-β1 si RNA-mediated gene silencing therapy provides a new avenue for liver fibrosis. This review summarizes recent progresses in research on HSCs, TGF-β1 and TGF-β1 si RNA in liver fibrosis.

Impact of Bovine Skeletal Muscle Satellite Cell Differentiation by Small Interfering RNA Targeting Myogenin Gene

To examine the effect of myogenin gene on the differentiation of bovine skeletal muscle satellite cell, we constructed small interfering RNA plasmid vector to obtain myogenin knockdown bovine skeletal muscle cells, then used cell transfection, real time RCR and Western Blot to detect the influence of myogenin to cell differentiation. Results showed that the knockdown of myogenin significantly decreased its expression and other muscle-specific genes. Compared to the control, it could differentiate into few myotubes when challenged by low serum in the medium. These findings provided an important theoretical basis for further explore of the genetic mechanism in adult skeletal muscle, the remedy of muscle injuries and the cultivation of high-yield transgenic cattle.

Effects of Small Interfering RNATargeting Sphingosine Kinase-1 Gene on the Animal Model of Alzheimer's Disease

Summary： Alzheimer＇s disease （AD） is an age-related, progressive neurodegenerative disorder that occurs gradually and results in memory, behavior, and personality changes. Abnormal sphingolipid metabolism was reported in AD previously. This study aimed to investigate whether sphK1 could exacerbate the accumulation of amyloid protein （Aβ） and sharpen the learning and memory ability of the animal model of AD using siRNA interference. An adenovirus vector expressing small interfering RNA （siRNA） against the sphK1 gene （sphKl-siRNA） was designed, and the effects of sphKl-siRNA on the APP/PS1 mouse four weeks after treatment with sphKl-siRNA hippocampal injection were examined. SphK1 protein expression was confirmed by using Western blotting and ceramide content coupled with SIP secretion was evaluated by enzyme-linked immunosorbent assay （ELISA）. Aβ load was detected by immunohistochemical staining and ELISA. Morris water maze was adopted to test the learning and memory ability of the APP/PS 1 mice. A significant difference in the expression of sphK1 protein and mRNA was observed between the siRNA group and the control group. Aβ load in transfected mice was accelerated in vivo, with significant aggravation of the learn- ing and memory ability. The sphKl gene modulation in the All load and the learning and memory ability in the animal model of AD may be important for the treatment of AD.

Inhibition of HOXB7 Gene Expression in Melanoma Cells by Small Interfering RNA

Objective： HOXB7 gene is a kind of transcription regulator over-expressed in malignant melanoma （MM） cell lines. It can specifically up-regulate the expression of angiogenic factors and tumor growth factors such as bFGF, GROa, VEGF and induce angiogenesis in melanoma, resulting in the proliferation and metastasis of tumor cells. We designed and synthesized HOXB7 specific siRNA to study its interfering effect on the expressions of HOXB7 and bFGF genes in melanoma A375 cell line and the biologic characteristics of A375 cells. Methods： Three synthesized siRNA with different sequences were separately transfected into A375 cells by lipofecter 2000. The expression of HOXB7 and bFGF mRNA in transfected cells was detected by RT-PCR 24 and 48 hours after transduction. The expression of bFGF protein in the transfected cells were detected by flowcytometry 48 hours after transfection. MTT assay was used to analyze the cell proliferation rate of siRNA transfected cells. Based on the in vitro experiment results, one effective siRNA sequence was selected for the construction of in vivo siRNA expression vector. Then, a malignant melanoma animal model was established. The siRNA expression plasmid was injected into the tumor foci and its influence on the growth and angiogenesis of tumor was observed. Results： The mRNA expressions of both HOXB7 and bFGF genes in the A375 cells reduced significantly 24 and 48 hour after transfection of siRNA. Expression level of the protein of angiogenic factor bFGF induced by HOXB7 gene in siRNA transfected cells was significantly lower than that in control cells 48 hours after transduction. Cell proliferation was also suppressed in siRNA transfected cells. Two of the three siRNA strands showed prominent interference effect. The in vivo study indicated that the tumor size and the microvessel density in the tumor both reduced after injection of HOXB7siRNA plasmid. Conclusion： Down-regulation of HOXB7 gene expression can effectively reduce the expression of angiogenic factor bFGF and the proliferation of MM cells. Besides, the growth and angiogenesis of MM tumor were also inhibited.

Silencing invariant chain of DCs enhances Th1 response using small interfering RNA

RNA interference(RNAi),which causes the degradation of any RNA in a sequence specific manner,is a posttranscriptional gene silencing mechanism.Targeting the invariant chain(Ii)in DCs has been used as an approach to enhance antitumor immunity.It is demonstrated in this article that transfection of H-2(K)DCs with siRNA specific for Ii gene can significantly knock down Ii.When exposed to TNF-alpha,immature DCs transfected with Ii siRNA can differentiate into mature DCs without reducing viability or IL-12p70 production.Ii siRNA-treated H-2(K)DCs exhibited an increased allostimulatory capacity in a lymphocyte proliferation assay.Furthermore,Ii siRNA-transfected H-2(K)DCs enhanced Th1 responses by increasing IFN-gamma and decreasing IL-4 production,and much stronger cytotoxic activity was observed when DCs were co-transfected with Ii siRNA and an endogenous tumor antigen in vitro.Our findings indicate that silencing the Ii gene in DCs with siRNA may offer a potential approach to enhancing antitumor immunotherapy.

The influence of small interfering RNA on the expression of Survivin in human glioma cells

Objective This study aims to investigate the feasibility of knockdown of Survivin gene with small interfering RNA and to observe the apoptosis in gliomas which is influenced by siRNA. Methods Survivin specific siRNA oligonucleotides were designed and synthesized artificially. This siRNA

采用GFP标记筛选抑制多血清型口蹄疫病毒3C基因表达的siRNA

为筛选出可抑制多种血清型口蹄疫病毒(FMDV)的小干扰RNA(siRNA),本试验通过多血清型口蹄疫病毒序列比对与siRNA设计分析,筛选出潜在抗多血清型siRNA位点;通过体外合成A型、O型和Asia I型病毒部分基因序列,制备绿色荧光蛋白(GPF)基因融合表达载体;将化学合成的siRNA与融合表达载体共转染,通过GFP观察、Western blot和实时荧光定量反转录PCR(qRT-PCR)方法检验目标siRNA对融合基因的抑制效率。生物信息分析发现,多血清型口蹄疫病毒3C基因高度保守并存在潜在siRNA作用靶位,GFP-3C融合表达载体成功构建,与化学合成的siRNA1-3C共转染293T细胞,GFP观察发现,siRNA1-3C可有效抑制来源于A型、O型和Asia I型3C基因的GFP-3C荧光信号且持续时间达72 h,Western blot检测证实此结果。qRT-PCR检测发现,siRNA1-3C对3个GFP-3C融合基因转录水平抑制效率超85%,且作用可维持72 h。本试验利用GFP作为筛选标记成功筛选出1个作用于FMDV 3C基因的siRNA,为开发多血清型口蹄疫抑制剂提供参考依据。

抑制CYP4A11基因表达的siRNAs优选及对血管收缩相关因子的影响

为了考察人细胞中细胞色素P450 4A11(CYP4A11)表达受抑制之后是否会影响血管相关收缩因子的表达,在线设计多个抑制细胞中代谢酶编码基因CYP4A11表达的siRNAs并通过BLAST验证;选择效果好的3对siRNAs合成并转染至EA.hy926细胞株,通过荧光染色和定量多聚酶链反应(quantitative polumerase chain reaction,qPCR)初步检测后,再采用表达量相对更高的MG63细胞系进行验证,发现25 nmol/L的siRNA2抑制效果最好;随后使用25 nmol/L siRNA2抑制CYP4A11在EA.hy926细胞株中的表达,并通过qPCR与Western-blot检测血管收缩相关因子的表达情况,发现促血管收缩相关因子内皮素1受体(endothelin 1 receptor,ET1R)、血管紧张素1型受体(angiotensin type 1 receptor,AT1R)表达下调(P<0.05),而内皮型一氧化氮合酶(endothelial nitric oxide synthase,eNOS)的表达显著上调(P<0.001)。因此,siRNA2能通过显著抑制EA.hy926细胞中CYP4A11的表达,调节血管紧张的相关指标,有促血管松弛作用的趋势。

小鼠Retn基因siRNAs的设计及其稳定表达载体的构建

目的 :设计小鼠 Retn基因特异性的 si RNAs,并构建一系列能在哺乳动物细胞内稳定表达这些 si RNAs的表达质粒 ,以便为在体外研究 Retn基因的功能打下基础。 方法 :(1 )设计并合成小鼠 Retn基因特异性的一组寡核苷酸片段 ,并克隆到 p Silencer EM 1 .0 - N eo载体 ;(2 )用电穿孔转染和 G4 1 8筛选等方法建立能稳定表达相应 si RNAs的一组 3T3- L1细胞克隆 ;(3)诱导细胞分化为脂肪细胞 ,并用 RT- PCR分析这些脂肪细胞内 Retn基因的 m RNA水平。 结果 :设计并构建了 4个小鼠Retn基因特异性的 si RNAs表达质粒 ,并证明其中的 2种质粒能在脂肪细胞内稳定表达相应的 si RNAs,显著地抑制了这些脂肪细胞内 Retn基因的 m RNA水平。 结论 :本研究设计并构建出的小鼠 Retn基因特异性的 si RNAs表达载体 ,所表达的 si R-NAs具有较强的 RNA干涉功能 ,为

siRNA非病毒载体递送用于肿瘤治疗的研究进展

近年来基于RNA干扰(RNA interference,RNAi)的基因治疗技术在肿瘤治疗方面引起广泛关注。在常规药物治疗无效的情况下,RNAi为癌症患者带来了新的希望。但是,由于小分子干扰RNA(small interfering RNA,siRNA)在体内存在易降解、难递送等问题,极大地限制了其临床转化潜力。纳米载体以其独特的尺寸效应和多样的修饰策略,能够介导高效、靶向的RNA递送,以实现其基因沉默。本文综述了RNAi在基因治疗中的作用机制以及体内递送siRNA的不同载体,介绍了载体体内递送siRNA的主要障碍和作用靶点,并比较了不同载体在siRNA递送中的优势和不足,为新载体的设计提供借鉴,推动RNA干扰疗法向临床的转化。

靶向HPV的siRNAs技术治疗宫颈癌研究的现状与挑战

小干扰RNA(small interfering RNAs,siRNAs)是近年来靶向治疗人类乳头瘤病毒(human papillomavirus,HPV)的分子生物学研究热点。该技术在抗HPV的靶向性研究中具有高特异性、放大效应、作用稳定、并可遗传等特征,为宫颈癌防治中抗HPV基因治疗提供了新途径。但siRNAs技术研发的核酸药物应用于临床仍面临者许多挑战和尚未解决的问题。今后抗HPV治疗的发展方向和研究重点仍将是采用siRNA技术在HPV相应位点阻断病毒复制,联合抗病毒的全身免疫调节的综合治疗以提高疗效。

体外转录制备的siRNAs对SARS-CoV复制的抑制作用

目的体外研究针对SARSCoVRNA依赖性RNA聚合酶(RNAdependentRNApolymerase,RdRp)的小干扰RNA(SmallinterferenceRNA,siRNA)对SARSCoV感染的抑制效应。方法利用Ambion公司在线设计工具,设计出4条针对RdRp基因的siRNAs,并在体外利用试剂盒进行转录合成。在SARSCoV感染前1d,将这4条体外转录的siRNAs用Lipofectamine2000试剂转染入VeroE6细胞中。感染后,每天观察感染细胞的细胞病变效应(Cytopathiceffect,CPE)。第5天,用空斑形成实验(Plaqueformationunit,PFU)检测感染细胞培养上清液中SARSCoV滴度。结果CPE结果显示,在感染后的前4d,各siRNAs均能有效地保护细胞免受感染;在第5天,4条siRNAs中有3条仍能有效保护细胞不被感染。PFU实验结果显示,在第5天,所有siRNAs转染的细胞培养上清液中,SARSCoV的滴度均显著低于阳性对照(P<0.001)。结论实验结果表明针对SARSCoV的RdRp基因的siRNAs能有效而特异地抑制该病毒在哺乳动物细胞中的复制和繁殖,提示如果应用合适的给药途径,RNAi策略可以用于体内抑制SARSCoV的感染。

Remodeling the tumor immune microenvironment via siRNA therapy for precision cancer treatment

How to effectively transform the pro-oncogenic tumor microenvironments(TME)surrounding a tumor into an anti-tumoral never fails to attract people to study.Small interfering RNA(siRNA)is considered one of the most noteworthy research directions that can regulate gene expression following a process known as RNA interference(RNAi).The research about siRNA delivery targeting tumor cells and TME has been on the rise in recent years.Using siRNA drugs to silence critical proteins in TME was one of the most efficient solutions.However,the manufacture of a siRNA delivery system faces three major obstacles,i.e.,appropriate cargo protection,accurately targeted delivery,and site-specific cargo release.In the following review,we summarized the pharmacological actions of siRNA drugs in remolding TME.In addition,the delivery strategies of siRNA drugs and combination therapy with siRNA drugs to remodel TME are thoroughly discussed.In the meanwhile,the most recent advancements in the development of all clinically investigated and commercialized siRNA delivery technologies are also presented.Ultimately,we propose that nanoparticle drug delivery siRNA may be the future research focus of oncogene therapy.This summary offers a thorough analysis and roadmap for general readers working in the field.