Antisense Sry Oligodeoxynucleotide Decreases Sry Protein in Transfected CHO Cells

Schafer, Christa M.

26 September 2005

No description available.

SRY

Sry1

ODN

ANTISENSE

Sry ODN

SHR

ASODN

Expression and characterization of ligand binding by the ectodomain of toll-like receptor 9

Potter, Jean Elizabeth Anore

04 September 2007

Toll-like receptor 9 (TLR9) activates the innate immune system in response to microbial DNA or mimicking oligodeoxynucleotides. While the discrimination of host and microbial DNA is presumed to reflect TLR9-mediated recognition of CpG motifs, little information is available to verify this hypothesis. Cell stimulation experiments demonstrate preferential activation of TLR9 by CpG-containing nucleic acids, however direct binding investigations have reached contradictory conclusions with respect to the ability of TLR9 to bind nucleic acids in a sequence-specific fashion. Here we report expression of the soluble, ectodomain of human TLR9 with characterization of its ligand-binding properties. TLR9 has a high degree of ligand specificity in being able to discriminate not only CpG dinucleotides, but also higher order six nucleotide motifs that mediate species-specific activation. However, TLR9 ligand binding is also functionally influenced by nucleic acids in a sequence-independent manner both in vitro and in cell proliferation experiments. A model is proposed in which TLR9 activation is mediated specifically by CpG-containing ligands while sensitivity is mediated specifically by the absolute concentration of nucleic acids in a sequence-independent manner.<p>The bovine hsp70A promoter was used to direct the heat-regulated synthesis of the ectodomain of human TLR9 in transfected cultured bovine cells. The protein was efficiently secreted from transfected cells in a temperature-dependent manner and the recombinant receptor produced was found to be relatively pure. A stably transfected cell line with regulated expression of the protein was obtained and repeated thermal cycling of the cultures enabled high-yield production of the receptor in an active ligand-binding form. Using this recombinant receptor to study the ligand binding properties of TLR9, a model of positive cooperativity is proposed in which the sensitivity of TLR9 ligand binding is modulated by the absolute concentration of nucleic acids in a sequence-independent fashion, while activation of TLR9 is highly dependent on DNA sequence. That is to say that TLR9 is primed for activation by interaction with non-activating sequences but activation itself occurs in a sequence-specific fashion.

ODN

CpG

TLR

innate immunity

Expression and characterization of ligand binding by the ectodomain of toll-like receptor 9

Potter, Jean Elizabeth Anore

04 September 2007

Toll-like receptor 9 (TLR9) activates the innate immune system in response to microbial DNA or mimicking oligodeoxynucleotides. While the discrimination of host and microbial DNA is presumed to reflect TLR9-mediated recognition of CpG motifs, little information is available to verify this hypothesis. Cell stimulation experiments demonstrate preferential activation of TLR9 by CpG-containing nucleic acids, however direct binding investigations have reached contradictory conclusions with respect to the ability of TLR9 to bind nucleic acids in a sequence-specific fashion. Here we report expression of the soluble, ectodomain of human TLR9 with characterization of its ligand-binding properties. TLR9 has a high degree of ligand specificity in being able to discriminate not only CpG dinucleotides, but also higher order six nucleotide motifs that mediate species-specific activation. However, TLR9 ligand binding is also functionally influenced by nucleic acids in a sequence-independent manner both in vitro and in cell proliferation experiments. A model is proposed in which TLR9 activation is mediated specifically by CpG-containing ligands while sensitivity is mediated specifically by the absolute concentration of nucleic acids in a sequence-independent manner.<p>The bovine hsp70A promoter was used to direct the heat-regulated synthesis of the ectodomain of human TLR9 in transfected cultured bovine cells. The protein was efficiently secreted from transfected cells in a temperature-dependent manner and the recombinant receptor produced was found to be relatively pure. A stably transfected cell line with regulated expression of the protein was obtained and repeated thermal cycling of the cultures enabled high-yield production of the receptor in an active ligand-binding form. Using this recombinant receptor to study the ligand binding properties of TLR9, a model of positive cooperativity is proposed in which the sensitivity of TLR9 ligand binding is modulated by the absolute concentration of nucleic acids in a sequence-independent fashion, while activation of TLR9 is highly dependent on DNA sequence. That is to say that TLR9 is primed for activation by interaction with non-activating sequences but activation itself occurs in a sequence-specific fashion.

ODN

CpG

TLR

innate immunity

Improving the biological activity of CpG ODN by linking it to carbon nanotubes

Tomporowski, Jason Scott

19 January 2010

Preventative immunotherapeutic treatments have been an area of great interest to combat infectious disease because of the ability to stimulate the hosts immune system which prepares the host to fight pathogenic microbes. The immunotherapeutic approach requires the use of an immune stimulating molecule that is able to boost the hosts immune response. A major problem exists that these immune stimulating molecules are often very expensive and require a large dose to be effective. To reduce the cost of using these molecules, a delivery system can be used which is able to lower the effective dose of the immune stimulant while not causing any toxic effects towards the hosts health. In this study, the immune stimulating molecules synthetic unmethylated cytidine-phosphate-guanosine oligodeoxynucleotides were attached non-covalently to multi-walled carbon nanotubes. The use of carbon nanotubes as a delivery mechanism could result in a lower effective dose able to stimulate a protective immune response in a chicken model. In this study, we first assessed which of the non-covalant linkages was ideal for linking the immune stimulant to the carbon nanotubes. This was conducted by looking at which method of linkage would allow the best cellular proliferation and transcriptional activation of selected innate immune genes. Once an appropriate linkage method had been selected, cellular uptake studies were conducted to establish that cytidine-phosphate-guanosine oligodeoxynucleotides were delivered to intracellular target receptors. After cellular uptake was demonstrated, it was important that the carbon nanotubes linked to the immune stimulant do not cause toxicity towards the host. To measure toxicity, in vitro studies were conducted to observe cell viability post treatment with carbon nanotube linked immune stimulant. Further studies were conducted on any alterations to the immune stimulants ability to activate immune cells by studying the pathway of macrophage activation. The protective ability of the molecules was then measured by the ability to protect chickens from a lethal challenge with S. typhimurium. Once the protective nature of the molecules was established, the mechanism of immune stimulation was examined by in vivo cell recruitment and in vitro cytokine production. These studies indicate that linking cytidine-phosphate-guanosine oligodeoxynucleotides to carbon nanotubes can lower the effective dose of the immune stimulant without altering the biological function of the molecule.

Carbon nanotube

CpG ODN

immunotherapy

Effects of cytosine-phosphate-guanosine oligodinucleotides (CpG-ODNs) on oral immunization with protein antigen or replicating parasite

Ameiss, Keith Allen

29 August 2005

The purpose of this research was to investigate selected methods of mucosal immunization for commercial chickens. Induction of mucosal immunity in commercial chickens through the use of orally administered subunit vaccines or through immunomodulation of the host??s response to live vaccines may be a viable means to control enteric infections in commercial poultry. In the present investigations we evaluated a means for delivering protein antigen in the drinking water and the use of CpG-ODNs, a recently reported mucosal adjuvant, in order to both improve this response and to modulate the host??s immune response when vaccinated with field strains of Eimeria acervulina and Eimeria tenella. In order to evaluate the efficacy of immunizing commercial poultry with subunit vaccines through the drinking water we chose the model antigen Bovine Serum Albumin (BSA). Chicks were administered BSA via intraperitoneal (I.P.) injection, oral crop gavage, or orally through the addition of BSA to the drinking water. These experiments demonstrated the efficacy of drinking water administration to induce antibodyproduction in the serum, intestine, and bile. When BSA was co-administered with CpGODNs we observed a modest increase in this response dependent upon dose. To evaluate the immunomodulation of the host response to live parasite using CpG-ODNs we used three administration models. The first was a single dose of CpGODNs with a trickle immunization regime of Eimeria acervulina. The second was coadministration of CpG-ODNs with a clinical dose of Eimeria acervulina or tenella. The third was pre-administration of CpG-ODNs 24 hours prior to the clinical dose of either species. These studies demonstrate that the first and third models were effective in reducing lesions and improving performance.

Poultry

Adjuvant

CpG-ODN

Eimeria

Oral

Vaccination

SYNTHÈSE ET ÉTUDES DE SONDES OLIGONUCLÉOTIDIQUES DONT LE SIGNAL FLUORESCENT EST MODIFIÉ AU COURS DE L'HYBRIDATION

LARTIA, Rémy

26 November 2004

Le but de ce travail était de développer des sondes oligonucléotidiques liées à des marqueurs fluorescents émettant des signaux modifiés lors de l'hybridation avec des séquences complémentaires. Des conjugués ODNs-cyanines originaux ont été développés. L'influence de différents paramètres sur le signal fluorescent émis par la sonde ont été étudiés : position de liaisons des marqueurs à l'ODN (5'- ou internucléotidique), structure des cyanines, stéréochimie. Un nouveau réactif de phosphorylation des ODNs a été mis au point et utilisé pour la synthèse des conjugués marqués en position 5'.<br> D'autres conjugués comportant à leur extrémité 5' deux marqueurs identiques possédant des propriétés intercalantes : thiazole orange, pyrène ou pérylène ont été obtenus. Les interactions entre les deux marqueurs varient lors de l?hybridation de la sonde avec la séquence complémentaire, induisant une modification du signal fluorescent dont la nature et l'intensité dépendent du marqueur considéré

synthèse

conjugués ODN-cyanine

réactif de phosphorylation

ODN 5'-bis marqués

pérylène

pyrène

Host and pathogen sensory systems as targets for therapeutic intervention

Kindrachuk, K. Jason

31 July 2007

A new paradigm for the treatment of infectious disease is through the modulation of innate immune responses. In this capacity, host defense peptides (HDPs) and synthetic Toll-like receptor 9 (TLR9) ligands have the greatest demonstrated potentials. The work presented here considers mechanisms for the improvement of these treatments through optimization, or in the case of HDPs the minimization, of the interactions of these ligands with sensory receptors.<p>Toll-like Receptor 9 activates the innate immune system in response to microbial DNA or immune-modulating oligodeoxynucleotides. While cell stimulation experiments demonstrate the preferential activating ability of CpG-containing nucleic acids, direct binding investigations have reached contradictory conclusions regarding the sequence-specificity of TLR9 ligand binding. To address this discrepancy the characterization of human TLR9 ligand binding properties is reported. TLR9 has a high degree of ligand specificity in being able to discriminate not only CpG dinucleotides, but also higher order six nucleotide motifs that mediate species-specific activation. However, TLR9 ligand binding is also functionally influenced by nucleic acids in a sequence-independent manner both in vitro and in cell proliferation experiments. A model is proposed in which TLR9 activation is mediated specifically by CpG-containing ligands while sensitivity of the receptor is modulated by the absolute concentration of nucleic acids in a sequence-independent fashion. <p>Host defense peptides are among the leading candidates to combat antibiotic resistant bacterial strains. Recently, HDPs have been demonstrated to function as ligands for the bacterial sensory kinase PhoQ resulting in the induction of virulence and adaptive responses. Thus, concerns have been raised regarding therapeutic applications of HDPs. Here a methodology is described that permits discrimination and quantification of the distinct, but related, peptide behaviors of direct antimicrobial activity and PhoQ ligand potential. Utilizing peptide derivatives of the model HDP Bac2A it is demonstrated that antimicrobial efficiency is significantly, and inversely, related to PhoQ ligand efficacy. This provides a rational basis for HDP selection with greater therapeutic potential and minimized potential for initiation of bacterial resistance.

immunomodulation

PhoPQ

antimicrobial peptide

host defense peptide

ODN

CpG

TLR

Host and pathogen sensory systems as targets for therapeutic intervention

Kindrachuk, K. Jason

31 July 2007

A new paradigm for the treatment of infectious disease is through the modulation of innate immune responses. In this capacity, host defense peptides (HDPs) and synthetic Toll-like receptor 9 (TLR9) ligands have the greatest demonstrated potentials. The work presented here considers mechanisms for the improvement of these treatments through optimization, or in the case of HDPs the minimization, of the interactions of these ligands with sensory receptors.<p>Toll-like Receptor 9 activates the innate immune system in response to microbial DNA or immune-modulating oligodeoxynucleotides. While cell stimulation experiments demonstrate the preferential activating ability of CpG-containing nucleic acids, direct binding investigations have reached contradictory conclusions regarding the sequence-specificity of TLR9 ligand binding. To address this discrepancy the characterization of human TLR9 ligand binding properties is reported. TLR9 has a high degree of ligand specificity in being able to discriminate not only CpG dinucleotides, but also higher order six nucleotide motifs that mediate species-specific activation. However, TLR9 ligand binding is also functionally influenced by nucleic acids in a sequence-independent manner both in vitro and in cell proliferation experiments. A model is proposed in which TLR9 activation is mediated specifically by CpG-containing ligands while sensitivity of the receptor is modulated by the absolute concentration of nucleic acids in a sequence-independent fashion. <p>Host defense peptides are among the leading candidates to combat antibiotic resistant bacterial strains. Recently, HDPs have been demonstrated to function as ligands for the bacterial sensory kinase PhoQ resulting in the induction of virulence and adaptive responses. Thus, concerns have been raised regarding therapeutic applications of HDPs. Here a methodology is described that permits discrimination and quantification of the distinct, but related, peptide behaviors of direct antimicrobial activity and PhoQ ligand potential. Utilizing peptide derivatives of the model HDP Bac2A it is demonstrated that antimicrobial efficiency is significantly, and inversely, related to PhoQ ligand efficacy. This provides a rational basis for HDP selection with greater therapeutic potential and minimized potential for initiation of bacterial resistance.

immunomodulation

PhoPQ

antimicrobial peptide

host defense peptide

ODN

CpG

TLR

Incorporation of CpG Oligodeoxynucleotides into α2-Macroglobulin: Development of a Novel Vaccine Adjuvant Delivery Mechanism

Anderson, Ryan Berger

02 May 2007

Bacterial DNA is immunostimulatory, and the motifs responsible for this activity are unmethylated CpG dinucleotides. Following cellular uptake, CpG-containing oligodeoxynucleotides (CpG ODN) are trafficked to the endosome where they bind Toll-like receptor 9 (TLR9) to initiate a signaling cascade that culminates in the release of numerous pro-inflammatory cytokines. Because of their immunostimulatory properties, CpG ODN are being clinically evaluated as treatments and vaccine adjuvants for infectious diseases, cancer, and allergic disorders. α2-Macroglobulin (α2M) is a human plasma protein that binds and modulates the activity of a variety of cytokines, growth factors, enzymes, and antigens. Upon proteolytic activation, α2M is converted to its receptor recognized form, α2M*, and rapidly binds to and is internalized by immune competent cells expressing the α2M* endocytic receptor, LRP, and is then trafficked to the endosome. Based on these interactions, α2M seems to play an important role at sites of infection and inflammation by controlling the level of proteinase activity, modulating cytokine signals, and enhancing antigen processing for the adaptive immune response. Here, we report the first evidence that α2M* binds and forms stable complexes with nucleic acids. We have characterized the mechanisms and stoichiometry of this interaction, examined the pH and temperature stability of these complexes, and identified structural variables in the nucleic acids, namely length, base composition, and chemical modifications, that affect the nature of this interaction. We hypothesized that CpG ODN incorporation into α2M* may alter their immunostimulatory properties. Murine macrophages (MΦs) treated with α2M*-ODN complexes respond more rapidly and produce a greater cytokine response than those treated with free CpG ODN alone. Treating human PBMCs with α2M*-ODN complexes likewise demonstrated their enhanced ability to elicit immune responses. This was due to more rapid uptake and CpG ODN protection from degradation by extracellular nucleases. Co-incorporation of both protein ligands and CpG ODN into α2M* yields ternary complexes; these may permit the simultaneous delivery of both protein antigens and adjuvants to immune competent cells, potentially greatly enhancing the adaptive immune response and protective immunity. Based on the findings that incorporation into α2M* confers enhanced immunostimulatory activity of CpG ODN, this technology may be exploited to improve CpG ODN-based therapeutics by increasing efficacy, minimizing side effects, reducing dosing requirements, and reducing cost. / Dissertation

TLR9

LRP

dendritic cells

Effects of Cytosine-phosphate-Guanosine Oligodeoxynucleotides (CpG-ODN) on vaccination and immunization of neonatal chickens

Barri, Adriana

17 February 2005

The objective of this investigation was to evaluate the effects of administering CpG-ODN to commercial strain chickens as a potential adjuvant to vaccination against Salmonella, Eimeria spp., and Newcastle disease virus, or immunization to bovine serum albumin (BSA). During Experiment 1, which evaluated the dual application of CpG-ODN and a Newcastle disease virus vaccine, in the first of three replicate trials, on day 28 of the experiment, animals in the Vaccine + CpG 1& 14 experimental group were observed to have the highest levels of (p<0.05) anti-NDV IgG in serum. These levels were elevated above levels in animals from all other experimental groups. This suggestion for an adjuvant effect associated with CpG-ODN administration was not supported in the remaining two trials of experiment 1. Experiment 2 evaluated the potential for CpG-ODN to adjuvant a commercial live oocyst coccidial vaccine when applied by an oral route to neonatal broiler chickens. Overall, when body weight gain during challenge, development of intestinal lesions, and anti-Eimeria IgG levels were evaluated, vaccine administration alone was demonstrated to provide the best measure of protection among animals in all experimental groups, including those receiving either CpG-ODN or Non CpG-ODN. Experiment 3 investigated the simultaneous administration of CpG-ODN or Non-CpG ODN and a commercially acquired Salmonella typhimurium vaccine to SCWL chickens. Similar to experiments 1 and 2, antigen specific IgG responses in serum and indices of protection against field strain Salmonella challenge were variable and inconsistent. Anti-BSA IgG levels were compared in broiler and SCWL chickens immunized against BSA by a drinking water route of administration alone, or in combination with two different concentrations of CpG-ODN or Non CpG-ODN in experiment 4. The only observation where CpG-ODN and BSA co-administration resulted in anti-BSA IgG levels that were elevated above BSA alone immunized chickens was measured in broilers at day 19 post-final immunization. Taken together, given the variable results reported in this investigation related to the co-administration of ODN and vaccine or protein antigen, these data are largely inconclusive for suggesting that CpG-ODN can effectively adjuvant humoral immune responses in commercial strain chickens.

CpG-ODN

mucosal adjuvant

vaccine

Eimeria

Salmonella

Newcastle Disease Virus