BARCELONA — Genetic testing eventually may enable diagnosis of systemic-onset juvenile idiopathic arthritis before the onset of joint involvement, according to growing evidence from DNA microarrays and clinical studies.
Specifically, the testing looks for a particular gene expression profile of the disease. Such tests also have revealed pathways to explore for the prevention of arthritis or the inducement of remission, Dr. Virginia Pascual said at the annual European Congress of Rheumatology.
“One of the problems with this disease … is that many times, children have systemic symptoms but arthritis comes later, and not until arthritis shows up can we make the diagnosis. As opposed to [patients with] the majority of other forms of juvenile arthritis, these children do not have detectable autoantibodies and only very rarely do they present with uveitis,” said Dr. Pascual, pediatric rheumatologist at the Baylor Institute for Immunology Research, Dallas.
It takes an average of 3 months to make a diagnosis of systemic-onset juvenile idiopathic arthritis (SoJIA) in her clinic.
To get an idea of which genes are being turned on or off abnormally in the active phase of SoJIA, Dr. Pascual and colleagues investigated the gene expression profiles of such patients with oligonucleotide microarray technology. They found serum from patients with SoJIA could induce the expression of interleukin-1β (IL-1β) protein in peripheral blood mononuclear cells (PBMCs) from healthy patients. The expression of IL-1β occurred in a pattern related to disease activity in which patients who had arthritis and already had passed the systemic phase of disease had lower up-regulation of IL-1 protein expression than did those with active systemic symptoms.
The researchers found that inhibition of IL-1 with the IL-1 receptor antagonist anakinra (Kineret) induced complete remission in seven of nine patients with SoJIA, lowered fever in all nine, and lessened arthritis in seven of nine. Abnormal laboratory measurements in the patients (anemia, thrombocytosis, leukocytosis, and elevated erythrocyte sedimentation rate) also were corrected with anakinra treatment (J. Exp. Med. 2005;201:1479–86).
At the congress, Dr. Pascual reported on the treatment of an additional nine SoJIA patients with anakinra. In follow-up ranging from 6 to 36 months, 17 of 18 patients in her clinic have responded to the treatment. The sole nonresponder initially responded to anakinra for 3 months (after not responding in the earlier pilot study) but had a break-through flare; the patient now receives another therapy. A second patient who did not respond to anakinra in the pilot study is now in remission on the drug.
Many of these children could be tested for SoJIA in the hospital when they present with systemic symptoms, so Dr. Pascual and her associates set out to profile which genes are differentially expressed in the blood of patients with SoJIA, compared with healthy patients. These genes could then be whittled down to a more manageable set to use in diagnosing SoJIA. In a comparison of 16 patients with active SoJIA and 16 healthy control patients, the investigators found 874 differentially expressed gene transcripts in SoJIA patients. But when they took the 50 genes that best differentiated the SoJIA patients from the control patients and compared the expression pattern of SoJIA patients with those from children with other inflammatory conditions (influenza, systemic lupus erythematosus, PAPA [pyogenic arthritis, pyoderma gangrenosum, and acne] syndrome, or systemic infection with Staphylococcus aureus, Streptococcus pneumoniae, or Escherichia coli), they were disappointed to see that most of these children also differentially expressed the same genes.
Half of the patients with gram-positive bacterial infections, one-third of patients with gram-negative bacterial infections, and one-third of patients with PAPA syndrome identically expressed the same up- and down-regulated genes, she said.
Still in the hunt for a specific expression signature for SoJIA, Dr. Pascual and her associates then analyzed their microarray data differently by examining 88 genes that are differentially expressed in SoJIA patients compared with healthy control patients, but that are not dysregulated in comparisons between patients with other systemic inflammatory conditions and healthy control patients.
“These 88 genes are very stable over time,” Dr. Pascual noted, giving an example of a SoJIA patient who had two disease flares but still had the same gene expression profile for these genes in two blood samples taken 2 years apart. The researchers then reduced those 88 genes to a set of 12 genes to diagnose SoJIA.
In newly hospitalized patients with a fever of unknown origin, this set of 12 genes correctly identified SoJIA in six of seven patients; the signature was correctly negative in another two patients who had SoJIA ruled out. The 12-gene set also correctly excluded 19 of 20 patients with infectious or other inflammatory diseases. This 12-gene expression signature of SoJIA went away in nearly all patients after treatment with an IL-1 blocker. The expression signature “seems to be linked in a way to the blocking of the IL-1 pathway,” she said.