Immunostimulatory activity of CpG oligonucleotides containing non-ionic methylphosphonate linkages

Bacterial DNA and synthetic oligodeoxynucleotides containing unmethylated CpG-motifs in a particular sequence context activate vertebrate immune cells. We examined the significance of negatively charged internucleoside linkages in the flanking sequences 5' and 3' to the CpG-motif on immunostimulatory activity. Cell proliferation and secretion of IL-12 and IL-6 in mouse spleen cell cultures, and spleen weights of mice increased significantly when a non-ionic linkage was placed at least four or more internucleoside linkages away from the CpG-motif in the 5'-flanking sequence. When the non-ionic linkage was placed closer than three internucleoside linkages in the 5'-flanking sequence to the CpG-motif, immunostimulatory activity was suppressed compared with that observed with the unmodified parent oligo. In general, the placement of non-ionic linkage in the 3'-flanking sequence to the CpG-motif either did not affect or slightly increased immunostimulatory activity compared with the parent oligo. These results have significance in understanding CpG oligonucleotide-receptor interactions and the development of potent immunomodulatory agents.     

Immunostimulatory activity of CpG containing phosphorothioate oligodeoxynucleotide is modulated by modification of a single deoxynucleoside

Phosphorothioate oligodeoxynucleotides (PS-oligos) containing the CpG motif have immunostimulatory properties. Our earlier study had shown that the immunostimulatory activity of PS-oligos containing the CpG motif can be modulated by incorporation of 2'-O-methylribonucleosides (Zhao, Q.; Yu, D.; Agrawal, S. Bioorg. Med. Chem. Lett. 1999, 9, 3453). Here we show that the immunostimulatory activity of a PS-oligo containing a CpG motif can be modulated by substitution of a single deoxynucleoside at specific sites with either 2'-O-methylribonucleoside or 3'-O-methylribonucleoside in the flanking region to CpG motif. Furthermore, substitution of deoxynucleosides with 2'-O-methoxyethoxyribonucleosides also results in modulating immunostimulatory activity of PS-oligos.     

Novel oligodeoxynucleotide agonists of TLR9 containing N3-Me-dC or N1-Me-dG modifications

Synthetic oligodeoxynucleotides containing unmethylated CpG motifs activate Toll-Like Receptor 9 (TLR9). Our previous studies have shown the role of hydrogen-bond donor and acceptor groups of cytosine and guanine in the CpG motif and identified synthetic immunostimulatory motifs. In the present study to elucidate the significance of N3-position of cytosine and N1-position of guanine in the CpG motif, we substituted C or G of a CpG dinucleotide with N³-Me-cytosine or N¹-Me-guanine, respectively, in immunomodulatory oligodeoxynucleotides (IMOs). IMOs containing N-Me-cytosine or N-Me-guanine in C- or G-position, respectively, of the CpG dinucleotide showed activation of HEK293 cells expressing TLR9, but not TLR3, 7 or 8. IMOs containing N-Me-cytosine or N-Me-guanine modification showed activity in mouse spleen cell cultures, in vivo in mice, and in human cell cultures. In addition, IMOs containing N-Me-substitutions reversed antigen-induced Th2 immune responses towards a Th1-type in OVA-sensitized mouse spleen cell cultures. These studies suggest that TLR9 tolerates a methyl group at N1-position of G and a methyl group at N3-position of C may interfere with TLR9 activation to some extent. These are the first studies elucidating the role of N3-position of cytosine and N1-position of guanine in a CpG motif for TLR9 activation and immune stimulation.     

Accessible 5'-end of CpG-containing phosphorothioate oligodeoxynucleotides is essential for immunostimulatory activity

In our ongoing efforts to decipher the sequence and structural requirements in the flanking region of the CpG motif in phosphorothioate oligodeoxynucleotides (PS-oligos), we have examined the requirement of free 5'- and 3'-ends of PS-oligos on immune stimulation. Our model studies using 3'-3'-linked (containing two free 5'-ends) and 5'-5'-linked (containing two free 3'-ends) CpG-containing PS-oligos demonstrate that immunostimulatory activity is significantly reduced when the 5'-end of the PS-oligo is not accessible, rather than the 3'-end, suggesting that the 5'-end plays a critical role in immunostimulatory activity.     

Modulation of immunostimulatory activity of CpG oligonucleotides by site-specific deletion of nucleobases

The effect of nucleobase deletion in the 3'- or the 5'-flanking sequence to a CpG-motif on immunostimulatory activity of CpG-containing oligonucleotides was examined by cell proliferation, secretion of IL-12 and IL-6 in mouse spleen cell cultures, and by spleen enlargement in mice. Deletion of one or two nucleobases in the 3'-flanking sequence to a CpG-motif at certain positions did not affect immunostimulatory activity, while similar deletions in the 5'-flanking sequence increased immunostimulatory activity compared with the parent oligo.     

P-chirality-dependent immune activation by phosphorothioate CpG oligodeoxynucleotides

Many of the biologic activities of phosphorothioate oligodeoxynucleotides (PS-oligos) are affected by the sense of chirality of the phosphorus atoms of the internucleotide linkages. Some of the activities are increased by the Rp stereoisomer, and others are increased by the Sp stereoisomer. In previous studies, we showed that PS-oligos containing unmethylated CpG dinucleotides in particular sequence contexts can stimulate B cells and other immune cells. These CpG PS-oligos trigger mitogenactivated protein kinase (MAPK) signaling pathways, causing the induction of B cell proliferation and cytokine and immunoglobulin secretion. We investigated whether the immune stimulation by CpG PS-oligos depends on the sense of their P-chirality. CpG PS-oligos synthesized with internucleotide phosphorothioates of Rp configuration at P-atom showed much stronger MAPK activation and induction of I kappa B degradation after 40 minutes of stimulation compared with PS-oligos synthesized with Sp linkages. In order to determine if the enhanced stimulatory effects of the Rp stereoisomer may result from differential cellular uptake, we examined the rates at which fluorescently labeled Rp or Sp CpG PS-oligos were taken up by B cells, but these were found to be identical to each other and to stereorandom PS-oligos. The stronger stimulatory effect of the R stereoisomer did not last for 48 hours, and (3)H-thymidine incorporation assays at this point showed that only the S stereoisomer was active--to approximately the same level as induced by PS-oligos with stereorandom phosphorothioate linkages. This loss of activity of the R stereoisomer most likely resulted from rapid degradation of the oligonucleotides rather than from reduced interaction with the CpG receptor because PS-oligos in which only the CpG dinucleotide was stereodefined were most stimulatory when the CpG was Rp but not when the CpG was Sp. These studies demonstrate that the sense of Pchirality of PS-oligos plays a major role in determining the biologic activities of CpG motifs. Rp-chirality at the CpG is preferred for best stimulation at early time points, but Sp-chirality of the PS-oligo appears to improve stability and may provide more durable effects in prolonged tissue culture systems.     

Encapsulation in liposomal nanoparticles enhances the immunostimulatory,adjuvant and anti-tumor activity of subcutaneously administered CpG ODN

Immunostimulatory oligodeoxynucleotides (ODN) containing cytosine-guanine (CpG) motifs are powerful stimulators of innate as well as adaptive immune responses, exerting their activity through triggering of the Toll-like receptor 9. We have previously shown that encapsulation in liposomal nanoparticles (LN) enhances the immunostimulatory activity of CpG ODN (LN-CpG ODN) (Mui et al. in J Pharmacol Exp Ther 298:1185, 2001). In this work we investigate the effect of encapsulation on the immunopotency of subcutaneously (s.c.) administered CpG ODN with regard to activation of innate immune cells as well as its ability to act as a vaccine adjuvant with tumor-associated antigens (TAAs) to induce antigen (Ag)-specific, adaptive responses and anti-tumor activity in murine models. It is shown that encapsulation specifically targets CpG ODN for uptake by immune cells. This may provide the basis, at least in part, for the significantly enhanced immunostimulatory activity of LN-CpG ODN, inducing potent innate (as judged by immune cell activation and plasma cytokine/chemokine levels) and adaptive, Ag-specific (as judged by MHC tetramer positive T lymphocytes, IFN-γ secretion and cytotoxicity) immune responses. Finally, in efficacy studies, it is shown that liposomal encapsulation enhances the ability of CpG ODN to adjuvanate adaptive immune responses against co-administered TAAs after s.c. immunization, inducing effective anti-tumor activity against both model and syngeneic tumor Ags in murine tumor models of thymoma and melanoma.     

'Immunomers'--novel 3'-3'-linked CpG oligodeoxyribonucleotides as potent immunomodulatory agents

Oligodeoxyribonucleotides containing CpG dinucleotides (CpG DNAs) are currently being evaluated as novel immunomodulators in clinical trials. Recently, we showed that an accessible 5′ end is required for immunostimulatory activity and blocking the 5′ end of CpG DNA by conjugation of certain ligands abrogates immunostimulatory activity. Based on these results, we designed and synthesized 3′–3′-linked CpG DNAs that contained two or more identical CpG DNA segments, referred to here as ‘immunomers’. The use of solid support bearing diDMT-glyceryl-linker permitted convenient synthesis of immunomers with both segments synthesized simultaneously, giving better yields and purity. The in vitro and in vivo studies suggest that as a result of accessibility to two 5′ ends for recognition, immunomers show an enhanced immunostimulatory activity compared with linear CpG DNAs. We also studied the suitability of a number of different linkers for attaching the two segments of immunomers. A C3-linker was found to be optimal for joining the two segments of immunomers. Incorporation of multiple linkers between the two segments of immunomers resulted in different cytokine profiles depending on the nature and number of linkers incorporated. Additionally, the length of immunomer also plays a significant role in inducing immune responses. An immunomer containing 11 nt in each segment showed the highest activity and an 11mer linear CpG DNA failed to stimulate an immune response. These results suggest that immunomers have several advantages over conventional linear CpG DNAs for immunomodulatory activity studies.     

Fujita-Ban QSAR analysis and CoMFA study of quinoline antagonists of immunostimulatory CpG-oligodeoxynucleotides

One hundred seven 2-arylquinolin-4-amines were assayed in vitro for inhibition of the immunostimulatory effect of oligodeoxynucleotides containing a CpG-motif. The compounds are functionalized with various basic and non-basic groups at the aryl moiety and at the amino substituent of the quinolin-4-amine, and some of them contain an additional substituent at position 6 or 7 of the quinoline. Activities of these antagonists, expressed as EC(50) values, range from 0.2 to 200nM. A statistically significant structure-activity correlation was obtained for the Fujita-Ban variant of the classical Free-Wilson analysis. The CoMFA results derived from several models consistently indicate that electrostatic interactions of the molecules with a biological receptor contribute to biological activities to a greater extent than steric effects.     

Hydrogen bond interactions of G proteins with the guanine ring moiety of guanine nucleotides.

We have utilized Raman difference spectroscopy to investigate hydrogen bonding interactions of the guanine moiety in guanine nucleotides with the binding site of two G proteins, EF-Tu (elongation factor Tu from Escherichia coli) and the c-Harvey ras protein, p21 (the gene product of the human c-H-ras proto-oncogene). Raman spectra of proteins complexed with GDP (guanosine 5' diphosphate), IDP (inosine 5' diphosphate), 6-thio-GDP, and 6-18O-GDP were measured, and the various difference spectra were determined. These were compared to the difference spectra obtained in solution, revealing vibrational features of the nucleotide that are altered upon binding. Specifically, we observed significant frequency shifts in the vibrational modes associated with the 6-keto and 2-amino positions of the guanine group of GDP and IDP that result from hydrogen bonding interactions between these groups and the two proteins. These shifts are interpreted as being proportional to the local energy of interaction (delta H) between the two groups and protein residues at the nucleotide binding site. Consistent with the tight binding between the nucleotides and the two proteins, the shifts indicate that the enthalpic interactions are stronger between these two polar groups and protein than with water. In general, the spectral shifts provide a rationale for the stronger binding of GDP and IDP with p21 compared to EF-Tu. Despite the structural similarity of the binding sites of EF-Tu and p21, the strengths of the observed hydrogen bonds at the 6-keto and 2-amino positions vary substantially, by up to a factor of 2.(ABSTRACT TRUNCATED AT 250 WORDS)     

Identification of immunostimulatory oligodeoxynucleotide from Escherichia coli genomic DNA

Bacterial DNA containing immunostimulatory CpG motifs can stimulate antigen-presenting cells to express costimulatory molecules and to produce various cytokines in vivo and in vitro. In this study, we fragmented macromolecular E.coli genomic DNA with DNase I, and analyzed the ability of the resulting DNA fragments to induce the NF-kappaB activation and humoral immune response. Furthermore, using computational analysis and luciferase assay for synthetic ODNs based on the sequence of the immunostimulatory DNA fragments (DF-ODNs), an active component of DF-ODNs sequences was investigated. Experimental results demonstrated that DF-ODN is optimal for the NF-kappaB-responsive promoter activation in the mouse macrophage cell line and the humoral immune response in vivo. In agreement with the activity of the DFODNs processed by DNase I, a synthetic ODN based on the DF-ODN sequences is potent at inducing IL-12 mRNA expression in primary dendritic cells. These results suggest that the discovery and characterization of a highly active natural CpG-ODN may be achieved by the analyses of bacterial DNA fragments generated by a nuclease activity.     

Parallel-Stranded DNA Formed by New Base Pairs Related to the Isoguanine-Cytosine or Isocytosine-Guanine Motifs

Abstract

Parallel-stranded (ps) oligonucleotide duplexes containing several new base pairs formed between 7-deazaisoguanine and cytosine, 8-aza-7-deaza-isoguanine and cytosine, and 5-aza-7-deaza guanine and guanine are described. The stability of the pshybrids increased if the duplex contains 8-aza-7-deazaisoguanine instead of isoguanine and is decreased by 7-deazaisoguanine incorporation. The purine-purine base pair between 5-aza-7-deazaguanine and guanine was found to be more stable than that of 5-methylisocytosine with guanine.     

Bis-4-aminoquinolines: novel triple-helix DNA intercalators and antagonists of immunostimulatory CpG-oligodeoxynucleotides

Six dimeric 2-(2-naphthyl)quinolin-4-amines with a linker between the amino groups and eight dimeric 2-(4-anilino)quinolin-4-amines linked between the anilino groups were synthesized and evaluated for their interaction with duplex/triplex DNA's and as antagonists of immunostimulatory oligodeoxynucleotides with a CpG-motif (CpG-ODN). The most powerful triple-helix DNA intercalator known to date, with high affinity toward T.A.T triplets and triplex/duplex selectivity, was found. The potent antagonism of immunostimulatory CpG-ODN by several bis-4-aminoquinolines is not related to their DNA interactions.     

Base composition of DNA from symbiotic dinoflagellates: a tool for phylogenetic classification

DNA of eight endosymbiotic dinoflagellates (zooxanthellae) from seven different host species has been analyzed as to its thermal characteristics and base composition by means of spectrophotometry and high performance liquid chromatography. All algae under investigation contain both methylcytosine and hydroxymethyluracil in addition to the bases typical of nuclear DNA. As a result, melting temperatures are decreased, suggesting lower contents of guanine plus cytosine than actually present. True percentages of guanine plus cytosine plus methylcytosine range from about 43 to 54 mol%. They are unique for the symbionts from different hosts, indicating phylogenetic separation of the taxa comparised within the genus Symbiodinium.Abbreviations dA deoxyadenosine - dC deoxycytidine - dG deoxyguanosine - dT deoxythymidine - m5dC 5-methyldeoxycytidine - hmdU 5-hydroxymethyldeoxyuridine - rC ribocytidine - Br8G bromine-80guanosine - A adenine - C cytosine - G guanine - T thymine - m5C 5-methylcytosine - hmU 5-hydroxymethyluracil - G+C guanine plus cytosine plus 5-methylcytosine - HPLC high performance liquid chromatography - T _m temperature at the midpoint of hyperchromic shift - CTAB N-cetyl-N,N,N-trimethyl-ammonium bromide - EDTA ethylenediamine-tetraacetic acid, disodium salt - TRIS tris-(hydroxymethyl)-aminomethane - 1×SSC standard saline citrate (0.15 M NaCl+0.015 M trisodium citrate, pH 7.0)     

Induction of sister chromatid exchanges by 5-fluorodeoxycytidine: correlation with DNA methylation

Chinese hamster ovary cells grown in medium containing 10 M 5-fluorodeoxycytidine for forty-eight hours were found to have up to 5% of the deoxycytidine residues of the DNA substituted by this analog. Cytological studies of these cells showed that the incorporated 5-FdC caused a two-fold increase of sister chromatid exchanges (SCE) over the control level. However, 5-FdC was capable of inducing SCE only after it had been present in the cell for at least two cycles of DNA synthesis. This is in contrast to several other chemicals that we have tested which induced SCE immediately after the first DNA synthesis. We consider the possibility that the delayed effect may be related to hypomethylation of cytosine in the newly replicated DNA.     

Stereo-enriched phosphorothioate oligodeoxynucleotides: synthesis, biophysical and biological properties

Stereo-enriched [Rp] and [Sp]-phosphorothioate oligodeoxynucleotides are synthesized using oxazaphospholidine derivatized monomers. Three different designs of phosphorothioate oligodeoxynucleotides (PS-oligos), (i) stereo-enriched all-[Rp] or all-[Sp] PS-linkages, (ii) stereo-random mixture of PS-linkages, and (iii) segments containing certain number of stereo-enriched [Rp] and [Sp] PS-linkages ([Sp-Rp-Sp] or [Rp-Sp-Rp]), have been studied. Thermal melting studies of these PS-oligos with RNA complementary strands showed that the binding affinities are in the order [Rp] > [Sp-Rp-Sp]-[Rp-Sp-Rp] > stereo-random > [Sp]. Circular dichroism (CD) studies suggest that the stereochemistry of the PS-oligo does not affect the global conformation of the duplex. The in vitro nuclease stability of these PS-oligos is in the order [Sp] > [Sp-Rp-Sp] > stereo-random > [Rp]. The RNase H activation is in the order [Rp] > stereo-random > [Rp-Sp-Rp] > [Sp] > [Sp-Rp-Sp]. Studies in a cancer cell line of PS-oligos targeted to MDM2 mRNA showed that all oligos had similar biological activity under the experimental conditions employed. Protein- and enzyme-binding studies showed insignificant stereo-dependent binding to proteins. The [Sp] and [Sp-Rp-Sp] chimeric and stereo-random PS-oligos that contained a CpG motif showed higher cell proliferation than [Rp] PS-oligo of the same sequence.     

Structure and dynamics of thioguanine-modified duplex DNA

Mercaptopurine and thioguanine, two of the most widely used antileukemic agents, exert their cytotoxic, therapeutic effects by being incorporated into DNA as deoxy-6-thioguanosine. However, the molecular mechanism(s) by which incorporation of these thiopurines into DNA translates into cytotoxicity is unknown. The solution structure of thioguanine-modified duplex DNA presented here shows that the effects of the modification on DNA structure were subtle and localized to the modified base pair. Specifically, thioguanine existed in the keto form, formed weakened Watson-Crick hydrogen bonds with cytosine and caused a modest approximately 10 degrees opening of the modified base pair toward the major groove. In contrast, thioguanine significantly altered base pair dynamics, causing an approximately 80-fold decrease in the base pair lifetime with cytosine compared with normal guanine. This perturbation was consistent with the approximately 6 degrees C decrease in DNA melting temperature of the modified oligonucleotide, the 1.13 ppm upfield shift of the thioguanine imino proton resonance, and the large increase in the exchange rate of the thioguanine imino proton with water. Our studies provide new mechanistic insight into the effects of thioguanine incorporation into DNA at the level of DNA structure and dynamics, provide explanations for the effects of thioguanine incorporation on the activity of DNA-processing enzymes, and provide a molecular basis for the specific recognition of thioguanine-substituted sites by proteins. These combined effects likely cooperate to produce the cellular responses that underlie the therapeutic effects of thiopurines.     

Lack of immune stimulation by immobilized CpG-oligodeoxynucleotide.

Selected phosphorothioate oligodeoxynucleotides containing CpG (CpG-ODN) activate immune responses, including B-cell proliferation and cytokine production. The mechanism by which cells detect CpG-motifs is not known. There are conflicting reports in the literature concerning the ability of CpG-ODN linked to solid supports to stimulate immunity. We prepared a fluorescent, biotinylated CpG-ODN, a reagent that will support the growth of 7TD1 cells, a murine B-cell hybridoma line that requires CpG-ODN or interleukin-6 (IL-6) for survival. Stimulation of 7TD1 cell growth was not reduced by complexing biotinylated CpG-ODN to streptavidin, but cell growth was not supported by CpG-ODN coupled to streptavidin-coated latex, magnetic, gold, or agarose beads. A fluorescent CpG-ODN was also covalently attached to cyanogen bromide-activated Sepharose beads via a 5'-amine group. These derivatized Sepharose beads did support 7TD1 cell growth, but incubation of the beads with 7TD1 cells resulted in the appearance of fluorescence within the cells, suggesting that growth stimulation may be due to CpG-ODN leached from the beads. Our results are consistent with the need for CpG-ODN to be internalized into cells to be immunostimulatory.     

A systematic study of patterns of hydration in nucleic acids:(I) guanine and cytosine

The hydration sites of guanine and cytosine are defined by examination of the crystal structures of bases, nucleosides, nucleotides, and three dinucleoside phosphate salts. The patterns of hydration for two guanine and cytosine containing oligonucleotides are then predicted. The relationship between these structural motifs and thermodynamic parameters is discussed.