10 research outputs found
Proteinaceous microspheres for targeted RNA delivery prepared by an ultrasonic emulsification method
In the present work we used sonochemically prepared proteinaceous BSA spheres as a novel RNA-delivery system. The preparation of RNA-loaded BSA spheres was accomplished using an environmental friendly method termed the “ultrasonic emulsification method”. It was demonstrated that ultrasonic waves do not cause the RNA chains to degrade and the RNA molecules remain untouched. The BSA–RNA complex was successfully introduced into mammalian (human) U2OS osteosarcoma cells and Trypanosoma brucei parasites. Using PVA coating of the RNA–BSA spheres we have achieved a significant increase in the number of microspheres penetrating mammalian cells. The mechanism of RNA encapsulation and the structure of the RNA–BSA complex are reported.Ulyana Shimanovich thanks Ministry of Science and Technology, Israel for the "Woman in Science" scholarship (3-8219)
Sa1244 CD24 Polymorphisms: Potential Contribution to IBD Risk and Genetic Susceptibility
CD24 and APC Genetic Polymorphisms in Pancreatic Cancers as Potential Biomarkers for Clinical Outcome.
There are no validated biomarkers that correlate with the prognosis of pancreatic ductal adenocarcinoma (PDA). The CD24 and adenomatous polyposis coli (APC) genes are important in the malignant transformation of gastrointestinal cells. This study examined APC and CD24 genetic polymorphisms and their possible impact on survival of patients with PDA.Clinical and pathological data as well as blood samples for extracting DNA were obtained for 73 patients with PDA. Real-time PCR assessed genetic variants of APC (I1307K and E1317Q), and four different single nucleotide polymorphisms (SNPs) in the CD24 gene: C170T (rs52812045), TG1527del (rs3838646), A1626G (rs1058881) and A1056G (rs1058818).The median age at diagnosis was 64 (41-90) years. Thirty-one patients (42.5%) were operable, 16 (22%) had locally advanced disease and 26 (35.5%) had disseminated metastatic cancer. The malignancy-related mortality rate was 84%. Median survival was 14 months (11.25-16.74). Survival was similar for wild-type (WT), heterozygous and homozygous variants of the APC or CD24 genes. The three most frequent CD24 SNP combinations were: heterozygote for A1626G and WT for the rest of the alleles (14% of patients), heterozygote for C170T, A1626G, A1056G and WT for the rest (14% of patients), and heterozygote for C170T, A1056G and WT for the rest (10% of patients). All patients were APC WT. The first two groups were significantly younger at diagnosis than the third group.Specific polymorphisms in the APC and CD24 genes may play a role in pancreatic cancer development. Correlation with survival requires a larger cohort
Silica Nanoparticles and Polyethyleneimine (PEI)-Mediated Functionalization: A New Method of PEI Covalent Attachment for siRNA Delivery Applications
Small-interfering RNA (siRNA) is
a synthetic double-stranded RNA
that consists of approximately 21 nucleotides (nts). It induces degradation
of target mRNAs in a sequence-specific manner by the RNA interference
(RNAi) mechanism. Thus, siRNAs offer a potential strategy for silencing
mutated or defective genes that cause a variety of human diseases.
The main obstacles of harnessing siRNAs as drugs are their inefficient
delivery to cells and off-target effect making clinical applications
very challenging. To address these issues, researchers have studied
a variety of nanocarrier systems for siRNA delivery. This study presents
the design, fabrication, and full characterization of innovative polyethyleneimine
(PEI)-decorated polycationic 34.2 ± 4.2 nm silica (SiO<sub>2</sub>) NPs for siRNA-mediated gene silencing. More specifically, a new
means of introduction (covalent mode of attachment) of the polycationic
25 kDa PEI polymer onto the SiO<sub>2</sub> NP surface has been developed
that makes use of an effective electrophilic double Michäel
acceptor, divinyl sulfone (DVS). The resulting novel SiO<sub>2</sub>–PEI nanoparticles (SPEI NPs) have been fully characterized
using a wide range of analytical, spectroscopic, and microscopic methods
(TEM, DLS, ζ potential, elemental analysis (EA), XPS, TGA, and
FTIR). Disclosing quite low cytotoxicity due to this unique mode of
PEI covalent grafting, SPEI NPs/siRNA polyplexes have been successfully
tested for the induction of gene silencing using dual-reporter luciferase
transfected human osteosarcoma U2OS cells. The corresponding gene
silencing data showed a clear correlation between PEI/siRNA ratios,
siRNA concentration(s), and the level of gene silencing. Moreover,
these SPEI NPs have been demonstrated to be thermodynamically stable
with an ability to efficiently bind siRNAs and induce silencing for
at least a one-year-long storage
<i>CD24</i> and <i>APC</i> Genetic Polymorphisms in Pancreatic Cancers as Potential Biomarkers for Clinical Outcome
<div><p>Background</p><p>There are no validated biomarkers that correlate with the prognosis of pancreatic ductal adenocarcinoma (PDA). The <i>CD24</i> and adenomatous polyposis coli (<i>APC</i>) genes are important in the malignant transformation of gastrointestinal cells. This study examined <i>APC</i> and <i>CD24</i> genetic polymorphisms and their possible impact on survival of patients with PDA.</p><p>Methods</p><p>Clinical and pathological data as well as blood samples for extracting DNA were obtained for 73 patients with PDA. Real-time PCR assessed genetic variants of <i>APC</i> (I1307K and E1317Q), and four different single nucleotide polymorphisms (SNPs) in the <i>CD24</i> gene: C170T (rs52812045), TG1527del (rs3838646), A1626G (rs1058881) and A1056G (rs1058818).</p><p>Results</p><p>The median age at diagnosis was 64 (41–90) years. Thirty-one patients (42.5%) were operable, 16 (22%) had locally advanced disease and 26 (35.5%) had disseminated metastatic cancer. The malignancy-related mortality rate was 84%. Median survival was 14 months (11.25–16.74). Survival was similar for wild-type (WT), heterozygous and homozygous variants of the <i>APC</i> or <i>CD24</i> genes. The three most frequent <i>CD24</i> SNP combinations were: heterozygote for A1626G and WT for the rest of the alleles (14% of patients), heterozygote for C170T, A1626G, A1056G and WT for the rest (14% of patients), and heterozygote for C170T, A1056G and WT for the rest (10% of patients). All patients were APC WT. The first two groups were significantly younger at diagnosis than the third group.</p><p>Conclusions</p><p>Specific polymorphisms in the <i>APC</i> and <i>CD24</i> genes may play a role in pancreatic cancer development. Correlation with survival requires a larger cohort.</p></div
Clinical Characteristics of All Patients (N = 73).
<p>Clinical Characteristics of All Patients (N = 73).</p
Kaplan-Meir survival curve for <i>APC</i> I1307K polymorphism.
<p>Kaplan-Meir survival curve for <i>APC</i> I1307K polymorphism.</p
Incidence of <i>APC</i> and <i>CD24</i> Polymorphisms between Patients.
<p>Incidence of <i>APC</i> and <i>CD24</i> Polymorphisms between Patients.</p