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INFLAMMATION AND IMMUNOPHARMACOLOGY

Non-CpG-Containing Antisense 2'-Methoxyethyl Oligonucleotides Activate a Proinflammatory Response Independent of Toll-Like Receptor 9 or Myeloid Differentiation Factor 88

ISIS Pharmaceuticals, Carlsbad, California

Oligonucleotides with a "CpG" motif trigger a proinflammatory response through activation of Toll-like receptor 9 (TLR9) and are being studied to exploit these properties for use as adjuvants and cancer therapies. However, oligonucleotides intended for antisense applications (ASOs) are designed to minimize proinflammatory responses by avoiding CpG motifs and by using chemical modifications [i.e., 2'-methoxyethyl (MOE) sugars and 5-methyl cytosine residues]. Nonetheless, modified ASOs are capable of eliciting a proinflammatory response at high doses, albeit mild compared with CpG oligos. To determine whether this phenomena is TLR-mediated, wild-type, TLR9 knockout, and myeloid differentiation factor 88 (MyD88) knockout mice were treated with a phosphorothioate-modified oligodeoxyribonucleotide CpG optimal oligo (ISIS 12449), and a representative non-CpG 2'-MOE oligonucleotide (ISIS 116847). The non-CpG oligonucleotide had a lower proinflammatory potency relative to ISIS 12449, requiring a >10-fold higher dose in wild-type animals to trigger a proinflammatory response. Furthermore, the inflammatory response to ISIS 12449 at low doses was TLR9 and MyD88-dependent, whereas non-CpG oligonucleotides retained the ability to activate a proinflammatory response in the knockout animals. Animals treated with the non-CpG oligonucleotide exhibited an increased spleen weight, elevated cytokine levels, increased immune cell infiltrates in liver, and an increased level of mRNA for cell surface markers typical of monocyte/macrophage type cells. Bone marrow-derived cells from wild-type and knockout animals treated with non-CpG oligonucleotide responded similarly with the production of MIP-2 and the activation of extracellular signal-regulated kianse1/2. These data implicate a TLR-independent mechanism of activation for non-CpG 2'-MOE oligonucleotides.

Address correspondence to: Dr. Scott P. Henry, Department of Toxicology, ISIS Pharmaceuticals, 2292 Faraday Ave., Carlsbad, CA 92008. E-mail: shenry{at}isisph.com

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