Metabolic Syndrome X Clinical Trial
Official title:
Impact of Dysmetabolic Iron Overload Syndrome on Polarization Capacity of Macrophages
Dysmetabolic iron overload syndrome (DIOS), is a frequent hepatic iron overload associated with metabolic syndrome. We hypothesize that this mild iron overload can induce a increased macrophagic polarization towards inflammatory types, thereby contributing to cardiovascular risk. Our main objective is to highlight the influence of iron overload on polarization capacity of monocytes into alternative macrophages (called M2). We therefore compare phenotypic markers of monocytes/macrophages between subjects with DIOS, metabolic syndrome without iron overload and lean subjects.
MEPHISTO is a pathophysiological, transverse, case-control, single-center study (university
hospital, Clermont-Ferrand, France). No intervention (drug or nutritional) is conducted as
part of this study and the participants are not subject to any exclusion period. Our
objective is to investigate the effects of iron overload on monocyte/macrophage polarization
and its relations with the cardiovascular risk factors.
We study 60 subjects divided into 3 groups of 20 participants :
- group DIOS composed of subjects with dysmetabolic hepatosiderosis
- group M composed of subjects with metabolic syndrom without iron overload
- group T composed of lean subjects DIOS group participants were selected among patients
recently diagnosed as DIOS, without any secondary hyperferritinemia and with hepatic
iron overload proved by liver MRI.
Recruitement of group DIOS was carried out in the internal medicine service. Subjects of
group M and DIOS come from the file of volunteers from the center of clinical investigation
(CIC-501, Clermont-Ferrand). Subject of group M to group DIOS are matched by age, gender
(+/- 5 kg/m²) and BMI. Subjects of group T to group DIOS are matched by age and gender. As
no direct benefit is expected for the participants, they receive a lump sum compensation of
50 euros.
Each participant undergoes only a 1 hour consultation including a clinical examination and
blood sample.
We focus on clinical parameters of the metabolic syndrome (waist size, BMI, blood pressure)
and on seeking exclusion factors (infection, neoplasia, anti-inflammatory drugs). Due to
their potential influence on inflammation and oxidant stress, these factors, as same as
smoking were excluded.
Blood sample will be used to perform:
- classical laboratory test (blood count, reticulocytes, ASAT, ALAT, LDH, lipid profile,
glycemia, insulinemia, TSH, , vitamin D, ferritin, transferrin saturation, CRP),
- specific dosages (IL-6, TNFalpha, hepcidine) by ELISA,
- monocyte phenotype ( CD14, CD16, CD 163, MR) by FACS (Fluorescence Activated Cell
Sorting),
- measurement of the gene expression from monocytes and macrophages after culturing by
real-time PCR.
Our main analysis focus on ex vivo polarization of monocytes into alternative macrophages
(M2) and phenotypic characterization. Before and after culturing monocytes with (to induce
M2 macrophage) or without IL-4 (to induce resident macrophage), we will measure the
expression of phenotypic markers of polarization (MR, CD200R, F13A1, CD163, AMAC1, TGFb),
inflammatory markers (TNFα , MCP- 1, IL-6) , oxidative stress markers (HO- 1 ), and markers
of iron metabolism (ferroportin, ferritin, hepcidin). We use quantitative PCR microfluidic
card (TLDA, Taqman Low-Density Array) to measure gene expression of monocytes and type M2
macrophages. This technique allows screening of expression for 24 genes. Different phases
are required: RNA extraction (RNeasy kit, Qiagen), the reverse transcription (RT-PCR kit,
HighCap cDNA RT kit, Applied Biosystems), amplification (TaqMan Fast Advanced Master Mix,
Applied Biosystems), and finally the study of gene expression (MFC TaqMan Array for GeneEx,
Format 24, Applied Biosystems). Our main outcome is capacity of polarization in M2
macrophages evidenced by expression of MR, CD200R, F13A1, CD163, AMAC1, TGFb. Evaluating the
influence of iron overload on data from the clinical examination, the results of standard
biology and monocyte gene expression is our secondary outcome.
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Observational Model: Case Control, Time Perspective: Cross-Sectional
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