Conformationally Constrained Oligonucleotides for RNA Targeting

Li, Qing

January 2012

A short oligonucleotide sequence as in a single-stranded antisense oligo nucleotides (AON) or in double-stranded small interfering RNAs (siRNA) can modulate the gene expression by targeting against the cellular mRNA, which can be potentially exploited for therapeutic purposes in the treatment of different diseases. In order to improve the efficacy of oligonucleotide-based drugs, the problem of target affinity, nuclease stability and delivery needs to be addressed. Chemical modifications of oligonucleotides have been proved to be an effective strategy to counter some of these problems. In this thesis, chemical synthesis of conformationally constrained nucleosides such as 7′-Me-carba-LNA-A, -G, -MeC and -T as well as 6′, 7′-substituted α-L-carba-LNA-T (Papers I-III) was achieved through a key free-radical cyclization. 1D and 2D NMR techniques were employed to prove the formation of bicyclic ring system by free-radical ring closure as well as to identify the specific constrained conformations in sugar moieties. These sugar-locked nucleosides were transformed to the corresponding phosphoramidites and incorporated into antisense oligonucleotides in different sequences, to evaluate their physicochemical and biochemical properties for potential antisense-based therapeutic application. AONs modified with 7′-Me-carba-LNA analogues exhibited higher RNA affinities (plus 1-4°C/modification) (Papers I & III), but AONs containing α-L-carba-LNA analogues showed decreased affinities (minus 2-3°C/ modification) (Paper II) towards complementary RNA compared to the native counterpart.  It has been demonstrated in Papers I-III that 7′-methyl substitution in α-L-carba-LNA caused the Tm drop due to a steric clash of the R-configured methyl group in the major groove of the duplex, whereas 7′-methyl group of carba-LNA locating in the minor groove of the duplex exerted no obviously negative effect on Tms, regardless of its orientation. Moreover, AONs containing 7′-Me-carba-LNA and α-L-carba-LNA derivatives were found to be nucleolytically more stable than native AONs, LNA modified AONs as well as α-L-LNA modified ones (Papers I-III). We also found in Paper II & III that the orientations of OH group in C6′ of α-L-carba-LNAs and methyl group in C7′ of 7′-Me-carba-LNAs can significantly influence the nuclease stabilities of modified AONs. It was proved that the methyl substitution in cLNAs which points towards the vicinal 3′-phosphate were more resistant to nuclease degradation than that caused by the methyl group pointing away from 3′-phosphate. Additionally, AONs modified with 7′-Me-carba-LNAs and α-L-carba-LNAs were found to elicit the RNase H mediated RNA degradation with comparable or higher rates (from 2-fold to 8-fold higher dependent upon the modification sites) as compared to the native counterpart. We also found that the cleavage patterns and rates by E. coli RNase H1 were highly dependent upon the modification sites in the AON sequences, regardless of the structural features of modifications (Papers II & III). Furthermore, we have shown that the modulations of Tms of AON/RNA duplexes are directly correlated with the aqueous solvation (Paper III).

conformationally constrained nucleoside

antisense oligonucleotide

RNA affinity

nuclease stability

RNase H

RNA degradation

Fluoreszenz-Resonanz-Energie-Transfer-basierter spezifischer Nachweis von mRNA in vitro und in situ

Palmisano, Ralf.

Unknown Date

Universiẗat, Diss., 2004--Bielefeld. / Erscheinungsjahr an der Haupttitelstelle: 2003.

Oligonucléotides comme modulateurs de l'expression génique / Oligonucleotides as gene expression modulators

Rouleau, Samuel

January 2017

L’ARN est sans aucun doute la molécule biologique la plus versatile qui soit. Tout comme l’ADN, il peut contenir et transmettre de l’information génétique. Tout comme les protéines, il peut accomplir une multitude de fonctions biologiques. De plus, son rôle le plus connu demeure celui d’intermédiaire entre l’ADN et les protéines. L’ARN est donc au cœur d’un bon nombre de processus biologiques. Ceci lui confère un immense potentiel thérapeutique qui jusqu’à présent demeure largement inexploité. Pour accomplir ses fonctions, l’ARN doit adopter une structure tridimensionnelle précise qui est dépendante à la fois de sa séquence et de son environnement. Ainsi, en modifiant la structure d’un ARN, il est possible d’en moduler sa fonction. C’est l’objectif global des travaux présentés dans cette thèse. Pour y parvenir, de courts oligonucléotides antisens (OA) ont été utilisés. Cette stratégie revêt plusieurs avantages. Comme les OA s’apparient à leur cible en formant des paires de bases Watson-Crick, ils offrent une grande spécificité et leur design est facile. De plus, en se fiant aux données structurales et aux logiciels de prédictions de structures des ARN, on peut aisément identifier les régions à cibler avec les OA. Enfin, cette technique est versatile puisqu’on peut cibler différents motifs d’ARN. La première cible a été le ribozyme du virus de l’hépatite D. Cet ARN, qui catalyse une réaction d’auto-coupure, a été modifié afin que son activité devienne dépendante à la liaison d’OA. Plusieurs modules ont ainsi été créés et combinés afin d’obtenir des ribozymes qui répondaient à la présence d’un ou plusieurs OA. En insérant ces interrupteurs moléculaires dans les régions non traduites d’un ARNm, nous avons ainsi modulé l’expression de ce gène avec les OA. Cet outil a des applications intéressantes pour la régulation de gènes en biologie synthétique. Un autre motif ciblé a été le G-quadruplex (G4). Cette structure non canonique exerce de nombreuses fonctions biologiques et représente donc une cible thérapeutique intéressante. Lorsque présent dans la région 5’ non traduite d’un ARNm, le G4 mène généralement à une diminution de la traduction. En utilisant des OA qui empêchent la formation du G4, nous avons été en mesure d’augmenter la traduction du gène ciblé. De plus, il a été possible de développer des OA qui favorisent la formation d’un G4 dans le but de diminuer l’expression de la cible. Finalement, dans le dernier chapitre de cette thèse, il est démontré que les G4 présents dans les microARN primaires influencent leur maturation en microARN matures. Des OA ciblant ces G4 ont été utilisés afin de favoriser la maturation de microARN suppresseurs de tumeurs, ce qui présente un potentiel thérapeutique intéressant. En bref, les travaux présentés dans cette thèse démontrent clairement que les OA sont un outil de choix pour cibler et modifier la structure de motifs d’ARN spécifiques. / Abstract : RNA is a versatile biological molecule. Like DNA, it can contain and transmit genetic information. Like proteins, it can accomplish multiple biological functions. Also, its most known role remains that of intermediary between DNA and proteins. RNA is thus a key player in many biological processes. This gives it an immense therapeutic potential which remains largely untapped. To fulfill its functions, RNA must adopt a precise threedimensional structure that is dependent on both its sequence and its environment. Thus, by modifying the structure of an RNA, it is possible to modulate its function. This is the overall objective of the work presented in this thesis. To achieve this, small antisense oligonucleotides (ASO) have been used. This strategy has several advantages. As ASO bind their target with Watson-Crick base pairs, they offer great specificity and their design is easy. Moreover, reliance on structural data and RNA structure prediction softwares makes it easy to identify the regions to be targeted with ASO. Finally, this technique is versatile since it is possible to target different RNA motifs. The first target was the HDV self-cleaving motif. This RNA, which catalyzes a self-cleaving reaction, has been modified so that its activity became dependent on the binding of ASO. Several modules were thus created and combined in order to obtain ribozymes which responded to the presence of one or more ASO. By inserting these molecular switches into an mRNA’s UTR, the expression of this gene was modulated with the ASO. This has interesting applications for the regulation of genes in synthetic biology. Another target motif was the G-quadruplex (G4). This non-canonical structure exerts many biological functions and therefore represents an interesting therapeutic target. When present in the mRNA’s 5’UTR, G4 generally lead to a decrease in translation. Using ASO that prevent G4 formation, we were able to increase the translation of the target gene. In addition, it has been possible to develop ASO which promote the formation of a G4 in order to decrease the expression of the target. Finally, in the last chapter of this thesis, it is demonstrated that the G4 present in the primary microRNAs influence their maturation in mature microRNAs. ASO targeting these G4 have been used in order to promote the maturation of tumor suppressor microRNAs, which has an interesting therapeutic potential. The work presented in this thesis clearly demonstrates that ASO are ideal for targeting and altering the structure of specific RNA motifs.

ARN

Oligonucléotide antisens

Ribozyme VHD

G-quadruplex

RNA

Antisense oligonucleotide

HDV ribozyme

Branchpoints as potential targets of exon-skipping therapies for genetic disorders / ブランチポイントは遺伝性疾患に対するエクソンスキッピング療法の有望な標的である

Ohara, Hiroaki

23 January 2024

京都大学 / 新制・課程博士 / 博士(医学) / 甲第24996号 / 医博第5030号 / 新制||医||1069(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 齊藤 博英, 教授 滝田 順子, 教授 小川 誠司 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

branchpoint

muscular dystrophy

exon-skipping therapy

splicing regulatory elements

antisense oligonucleotide

490

Expression and Function of microRNA in Human Cancer

Lee, Eun Joo

11 September 2008

No description available.

Molecular Biology

Pharmaceuticals

microRNA

Pancreatic cancer

Real-time PCR

Antisense oligonucleotide

Protoporphyrie érythropoïétique : thérapie génique non intégrative par oligonucléotide antisens adressé par peptides bifonctionnels RTf1-CPP / Erythropoietic protoporphyria : non-integrative gene therapy by antisens oligonucleotide addressed by TFR1-CPP bifunctional peptides

Mirmiran, Arienne

28 March 2017

La protoporphyrie érythropoïétique (PPE) est une maladie héréditaire rare caractérisée par un déficit en activité FECH responsable d’une accumulation de PPIX. Elle se manifeste par une photosensibilité très invalidante. Il n’existe pas de traitement efficace pour la PPE. 95 % des malades présentent un allèle FECH hypomorphe (c.315-48C) en trans d'une mutation FECH délétère, ce qui entraine une diminution de l'activité FECH résiduelle dans les érythroblastes en dessous d'un seuil critique d'environ 35 % de l'activité normale. L’allèle hypomorphe (c.315-48C) favorise l'utilisation d'un site cryptique d'épissage situé en -63 de l’intron 3 générant un ARNm FECH incluant une partie de l’intron 3 et possédant un codon stop prématuré. L’ARN est alors dégradé par NMD pendant sa maturation. Nous avons déjà identifié un oligonucléotide antisens (ASO-V1) qui redirige l'épissage vers le site accepteur physiologique de l’intron 3 et augmente la production d’ARN FECH WT. Nous avons développé par ce travail une nouvelle stratégie d’adressage d’ASO-V1 en utilisant des peptides ciblant le récepteur de la transferrine (RTf1) qui est exprimé à un niveau très élevé dans les progéniteurs érythroïdes en différenciation concomitamment à la FECH. Nous avons développé des peptides bifonctionnels à partir des séquences peptidiques ciblant le RTf1 tout en les couplant à des séquences Cell Penetrating Peptide (CPP) qui facilitent la sortie de l’ASO-V1 de la vésicule endosomale. Après la transfection des lignées lymphoblastoïdes de malades PPE par différents nanocomplexes RTf1-CPP/ASO-V1, nous avons pu montrer que plusieurs des peptides bifonctionnels utilisés permettaient une redirection efficace et prolongée de l’épissage cryptique vers l’épissage physiologique exon3-exon4 et que cela permettait une correction des taux d’ARN FECH WT. Nous avons ensuite testé l’effet des nanocomplexes RTf1-CPP/ASO-V1, ex vivo, dans les progéniteurs érythroïdes en différenciation de différents sujets atteints de PPE et nous sommes arrivés à augmenter l’ARN FECH WT et diminuer significativement l’accumulation de la PPIX dans ces cellules par rapport à celles transfectées par des nanocomplexes RTf1-CPP/ASO-Mock. La prochaine étape de notre étude serait d’apporter la preuve de concept, in vivo, dans un modèle murin humanisé de PPE après l'administration de nanocomplexes RTf1-CPP/ASOV1 / Erythropoietic protoporphyria (EPP) is a rare hereditary disease characterized by a deficiency in FECH activity responsible for the accumulation of PPIX. EPP is manifested by a very disabling photosensitivity. There is no effective treatment for EPP. 95% of the patients present a hypomorphic FECH allele (c.315-48C) in trans of a deleterious FECH mutation, resulting in a decrease in residual FECH activity in erythroblasts below a critical threshold of about 35% of normal activity. The hypomorphic allele (c.315-48C) promotes the use of a cryptic splicing site located at -63 of the intron 3 generating a FECH mRNA including a part of the intron 3 and possessing a premature stop codon. The RNA is then degraded by NMD during its maturation. We have previously identified an antisense oligonucleotide (ASO-V1) that redirects splicing to the physiological acceptor site of intron 3 and increases the production of WT FECH mRNA. Here, we developed a new ASO-V1 addressing strategy using transferrin receptor (TRf1) targeted peptides. TfR1 is expressed at a very high level in differentiating erythroid progenitors concomitantly with FECH. We developed bifunctional peptides from peptide sequences targeting TfR1 while coupling them to Cell Penetrating Peptide (CPP) sequences that facilitate the release of ASO-V1 from the endosomal vesicle. We transfected the lymphoblastoid cell lines from EPP patients by different TfR1-CPP/ASO-V1 nanocomplexes and we demonstated that several of the bifunctional peptides allowed an efficient and prolonged redirection of the cryptic splicing towards the exon3-exon4 physiological splicing and the correction of the WT FECH mRNA levels. Then, we tested the effect of TfR1-CPP/ASO-V1 nanocomplexes, ex vivo, in differentiating erythroid progenitors of different EPP subjects and we were able to increase WT FECH mRNA and decrease significantly the accumulation of the PPIX in these cells compared to those transfected by TfR1-CPP/ASO-Scr nanocomplexes. The next step of our study would be to provide a proof of concept, in vivo, in a humanized murine model of EPP after the administration of TfR1-CPP/ASOV-1 nanocomplexes

Thérapie génique

Protoporphyrie Erythropoïétique

Oligonucléotide antisens

Peptide cargo

RTf1

CPP

Gene therapy

Erythropoietic protoporphyria

Antisense oligonucleotide

Peptide cargo

TfR1

CPP

Integrin subunits: expression and function in early development of Strongylocentrotus purpuratus

Brothers, M Elizabeth

09 December 2008

Integrins are heterodimeric transmembrane receptors composed of an α and a β subunit, that are expressed on the surface of all metazoan cells. These bidirectional signaling molecules are involved in many well-known aspects of cell function, although the role of integrins in early embryonic development remains a mystery. The purpose of this study was to characterize S. purpuratus integrins and determine if they are necessary for early embryonic development. Full length cDNA sequences for four incomplete gene predictions, αC, αD, αF, and βD, were determined by amplifying overlapping fragments and sequencing EST clones. Each cDNA has a single open reading frame predicting a protein with canonical integrin features. QPCR results show αC, αD, and βD are expressed in the embryo at relatively constant levels during the first 96 hours of development. αF is expressed in blastulae, during morphogenesis and tissue differentiation, at up to 35 times the levels of mRNA in the egg. Using a morpholino antisense oligonucleotide to block translation of αC results in a higher than normal mortality rate (57.1%) by 24 hours of development and 36.7% of embryos during this period have defects in aspects of cell division. These results indicate that αC is an essential gene for early development and that it may function in coordination of mitosis and cytokinesis. The expression of multiple subunits and the demonstration that αC has an essential role suggests that there are several non-overlapping functions for integrins in early embryonic development.

integrin

Strongylocentrotus purpuratus

sea urchin

morpholino antisense oligonucleotide

development

embryogenesis

Quantitative PCR

Integrin subunits: expression and function in early development of Strongylocentrotus purpuratus

Brothers, M Elizabeth

09 December 2008

Integrins are heterodimeric transmembrane receptors composed of an α and a β subunit, that are expressed on the surface of all metazoan cells. These bidirectional signaling molecules are involved in many well-known aspects of cell function, although the role of integrins in early embryonic development remains a mystery. The purpose of this study was to characterize S. purpuratus integrins and determine if they are necessary for early embryonic development. Full length cDNA sequences for four incomplete gene predictions, αC, αD, αF, and βD, were determined by amplifying overlapping fragments and sequencing EST clones. Each cDNA has a single open reading frame predicting a protein with canonical integrin features. QPCR results show αC, αD, and βD are expressed in the embryo at relatively constant levels during the first 96 hours of development. αF is expressed in blastulae, during morphogenesis and tissue differentiation, at up to 35 times the levels of mRNA in the egg. Using a morpholino antisense oligonucleotide to block translation of αC results in a higher than normal mortality rate (57.1%) by 24 hours of development and 36.7% of embryos during this period have defects in aspects of cell division. These results indicate that αC is an essential gene for early development and that it may function in coordination of mitosis and cytokinesis. The expression of multiple subunits and the demonstration that αC has an essential role suggests that there are several non-overlapping functions for integrins in early embryonic development.

integrin

Strongylocentrotus purpuratus

sea urchin

morpholino antisense oligonucleotide

development

embryogenesis

Quantitative PCR

Neurochemical markers in CSF of adolescent and adult SMA patients undergoing nusinersen treatment

Wurster, Claudia D., Günther, René, Steinacker, Petra, Dreyhaupt, Jens, Wollinsky, Kurt, Uzelac, Zeljko, Witzel, Simon, Kocak, Tugrul, Winter, Benedikt, Koch, Jan C., Lingor, Paul, Petri, Susanne, Ludolph, Albert C., Hermann, Andreas, Otto, Markus

16 May 2022

Background: There is limited information on neurochemical markers being used to support and monitor the affection of motoneurons in patients with spinal muscular atrophy (SMA). The objective of this study was to examine neurochemical markers in cerebrospinal fluid (CSF) under treatment with the antisense-oligonucleotide (ASO), nusinersen. Methods: We measured markers of axonal degeneration [neurofilament light chain (NfL) and phosphorylated neurofilament heavy chain (pNfH)] along with basic CSF parameters in 25 adolescent and adult SMA type 2 and 3 patients at baseline and after four intrathecal injections of nusinersen. Neurochemical markers were compared with controls. In addition, neurochemical markers in SMA patients were related to the Hammersmith Functional Rating Scale Expanded (HFMSE). Results: No significant difference in neurofilament (Nf) values was observed between SMA and control group, neither at baseline nor after four injections of nusinersen. NfL, protein and quotients of albumin (Qalb) increased slightly in SMA patients after the fourth injection. The slight increase of NfL could be related to the development of mild CSF flow change. No relations were observed between changes in Nf and HFMSE. Conclusion: We assume that Nf levels in CSF in these patients may result from slow disease progression in this stage of disease, pre-existing loss of motoneurons due to long disease duration besides affection of the LMN only. Therefore, we conclude that Nf levels in CSF do not seem useful as diagnostic and monitoring markers in adolescent and adult SMA type 2 and 3 patients.

info:eu-repo/classification/ddc/610

ddc:610

On the pathophysiological significance of CD154/CD40-mediated leukocyte-endothelial cell interaction / On the pathophysiological significance of CD154/CD40-mediated leukocyte-endothelial cell interaction

Gao, Dingcheng

07 May 2003

No description available.

32 Biologie

WHC 700

Mathematics and Natural Science

CD40

antisense-Oligonukleotide

Endothelzellen

CD40

antisense oligonucleotide

endothelial cell

chronic inflammatory bowel disease

42.15