Interleukin Genetics and NYU Langone Medical Center Announce Publication of Study on Genetics of Osteoarthritis
02 12월 2009 - 11:15PM
PR Newswire (US)
New Study Published in Annals of Rheumatic Diseases Suggests IL-1
Biology Plays Central Role in Development of Severe Knee
Osteoarthritis WALTHAM, Mass. and NEW YORK, Dec. 2
/PRNewswire-FirstCall/ -- Interleukin Genetics, Inc. (NYSE Amex:
ILI) and NYU Langone Medical Center announced findings from a study
performed in collaboration with Duke University on the genetics of
osteoarthritis have been published this week in the "Online First"
version of the Annals of Rheumatic Diseases and is available at
http://ard.bmj.com/cgi/rapidpdf/ard.2009.113043v1.pdf. Results from
the study highlight importance of inter-individual variations in
the IL-1 receptor antagonist (IL-1Ra) gene as a likely determinant
for whether patients with knee osteoarthritis will go on to develop
a severe form of the disease. Three commonly occurring variations
in the gene for IL-1Ra were found to be strongly and significantly
associated with severe knee osteoarthritis, as measured on
radiographs. "This publication helps validate a predominant theory
over the last five years that IL-1 is an important driver of
osteoarthritis," said Steven B. Abramson, MD, Director of the
Division of Rheumatology at the Hospital for Joint Diseases at NYU
Langone Medical Center. "This observation for the first time shows
that variations of the IL-1 receptor antagonist gene, the natural
blocker of IL-1's damaging actions, may determine who is more
likely to progress with the disease and require surgery. This
finding can help in the clinical management of patients, facilitate
the clinical testing of drugs in various stages of development for
slowing progression of osteoarthritis and could lead to new
treatments for the disease where there currently are none."
Osteoarthritis (OA) is the most prevalent form of arthritis,
affecting more than 20 million adults in the U.S., with that number
expected to double over the next 50 years. OA is caused by the
breakdown of the cartilage cushion in one or more joints of the
body leading to pain, limitation in movement, and in many cases
joint replacement. Therapy for OA patients involves mostly pain
management, and no drugs are currently available to limit the
progression of the disease. "Many trials for osteoarthritis
therapies have failed due to the inability to identify the group at
highest risk for progression over short periods of time," said
Virginia Byers Kraus, MD, PhD, collaborator at Duke University.
"The identification of these variations in the IL-1 receptor
antagonist gene may form one strategy of identifying such
individuals that could help release this major roadblock to
developing more effective drugs for osteoarthritis." Interleukin
Genetics identified and holds patents on genetic patterns that lead
to over-production of interleukin-1, one of the key chemicals
involved in cartilage and bone destruction, and on specific genetic
patterns that are predictive of OA progression. "We're excited at
the potential for clinical use of our genetic biomarkers to aid
drug companies in the development of a treatment to halt the
progression of this crippling disease," said Ken Kornman, PhD,
Chief Scientific Officer, Interleukin Genetics, Inc. "This
publication is the positive culmination of Interleukin Genetics'
research on genetic patterns related to interleukin-1 and
dedication by our university partners to better understand and
treat this disease." About the Study The lack of biomarkers that
identify patients at risk for severe OA complicates development of
disease modifying OA drugs. This study determined whether
inflammatory genetic markers could stratify knee OA patients into
high and low risk categories for destructive disease. Genotype
associations with knee OA severity were assessed in two independent
Caucasian populations, including one population from NYU Langone
Medical Center's Hospital for Joint Diseases and the other from
Duke University Medical Center. Fifteen SNPs in six inflammatory
genes were evaluated for association with radiographic severity and
with synovial fluid collected from a subset of the patients. All
130 patients met clinical symptomatic criteria and radiographic
criteria for OA of at least one affected knee and were over age 38.
Patients with histories of corticosteroids, bilateral knee
replacements, other forms of arthritis, cancer, or other chronic
diseases beyond hypertension or hypercholesterolemia were excluded.
Results of the study showed interleukin-1-receptor antagonist
(IL1RN) single-nucleotide polymorphisms (rs419598; rs315952; and
rs9005) predicted Kellgren-Lawrence scores independently in each
population. One IL1RN haplotype was associated with lower odds of
radiographic severity (OR 0.16; 95% CI 0.06-0.40), greater joint
space width (JSW; p=0.0038), and lower synovial fluid cytokine
levels. Carriage of the IL1RN haplotype influenced the age
relationship with severity. IL1RN Polymorphisms reproducibly
contribute to disease severity in knee OA and may be useful
biomarkers for patient management by physicians and in the
selection of patients in disease modifying OA drug trials. About
Interleukin Genetics Interleukin Genetics, Inc. (NYSE Amex: ILI)
develops and markets genetic tests that empower consumers to
prevent chronic diseases of aging and that assist pharmaceutical
companies in the development and marketing of targeted
therapeutics. The Company leverages its research, intellectual
property and biomarker development experience to facilitate the
emerging personalized health market. Interleukin Genetics is
headquartered in Waltham, MA. For more information please visit
http://www.ilgenetics.com/. Certain statements contained herein are
"forward-looking" statements, including statements regarding the
potential for clinical use of our genetic biomarkers to aid drug
companies in the development of a treatment for osteoarthritis.
Because such statements include risks and uncertainties, actual
results may differ materially from those expressed or implied by
such forward-looking statements. Factors that could cause actual
results to differ materially from those expressed or implied by
such forward-looking statements include, but are not limited to,
those risks and uncertainties described in the Company's annual
report on Form 10-K for the year ended December 31, 2008, quarterly
reports on Form 10-Q and other filings with the Securities and
Exchange Commission. The Company disclaims any obligation or
intention to update these forward-looking statements. DATASOURCE:
Interleukin Genetics, Inc. CONTACT: Media, Erin Walsh, Interleukin
Genetics, +1-781-419-4707, Web Site: http://www.ilgenetics.com/
Copyright