Type 2 Diabetes Clinical Trial
Official title:
Rapid Effects of the DPP-4 Inhibitor Linagliptin on Monocyte Polarization and Endothelial Progenitor Cells in Type 2 Diabetic Patients With and Without Chronic Renal Failure. A Randomized Cross-over Trial Versus Placebo
Diabetes mellitus is characterized by chronic low grade inflammation, which is worsened by
the co-existence of renal failure.
One key aspect of chronic inflammatory diseases is the alteration in the polarization
profile of circulating monocyte-macrophage cells.
Namely, monocytes-macrophages can exist in a pro-inflammatory (M1) polarized form or an
anti-inflammatory (M2) polarized state. Alterations in the M1/M2 balance is thought to
contribute to inflammation within atherosclerotic lesions and visceral adipose tissue which,
in turn, can worsen cardiovascular disease and metabolic features in type 2 diabetic
patients.
M1 and M2 are regulated by a complex interplay of soluble signaling molecules, many of which
are substrate of the enzyme DPP-4 (dipeptidyl peptidase-4). Therefore, inhibition of DPP-4
can affect the M1/M2 polarization balance.
In this clinical trial, the investigators will test whether the DPP-4 inhibitor Linagliptin,
compared to placebo, modifies the M1/M2 balance in type 2 diabetic patients with and without
chronic renal failure.
In addition, we will test whether DPP-4 inhibition with Linagliptin acutely affects
endothelial progenitor cells (EPCs), which are vasculoprotective cells implicated in the
pathobiology of diabetic complications.
Type 2 diabetes is associated with chronic sterile low-grade inflammation, usually caused by
hyperglycemia and associated biochemical abnormalities, as well as by overweight/obesity.
The co-existence of chronic renal failure further exacerbates inflammation in diabetic
patients, and this contributes to the exceedingly high morbidity and mortality of this
category of patients. One key element of this type of inflammation is the pro- versus
anti-inflammatory polarization of circulating monocytes and tissue macrophages. Diabetes
indeed causes an imbalance of this polarization, in favour of the pro-inflammatory (M1)
monocytes at the expenses of anti-inflammatory (M2) monocytes. Cells belonging to the
monocyte/macrophage lineage are of great importance in diabetes pathophysiology, as they are
involved in atherosclerosis and adipose tissue biology, both of which determine diabetes
outcomes. It is recognized that M1/M2 polarization relies on the expression of
chemokines/cytokines and their respective receptors. Interestingly, among non-incretin
substrates of DPP-4 are several chemokines (e.g. MCP-1 and -2, RANTES and SDF-1a), which may
regulate M1/M2 polarization. Linagliptin (terminal half-life >100 hours, and effective
half-life for accumulation approximately 12 hours) can be safely used in type 2 diabetic
patients with renal impairment without dose adjusting, because the drug is excreted >90%
with feces and has a minor renal excretion. The possibility to modulate the M1/M2
inflammatory pathway with the DPP-4 inhibitor linagliptin entails a hitherto unappreciated
opportunity for protecting diabetic patients with renal disease from the detrimental
consequences of chronic inflammation on vascular and adipose tissue biology. We have set up
a protocol to assess M1/M2 polarization of circulating monocyte/macrophage cells by flow
cytometry. Our preliminary data indicate that diabetes is associated with an imbalance in
M1/M2 polarization versus non diabetic controls, in favour of M1 cells in diabetic patients.
Hyperglycemia per se may affect M1/M2 polarization and it is expected that any effect of
linagliptin on monocytes can be detected as soon as DPP-4 inhibition reaches steady-state.
Therefore, in order to provide a proof-of-concept for the effect of linagliptin on M1/M2
polarization and to avoid the confounding of improved glucose control, the time point of the
study will be very short (4 days). Our preliminary data in cell cultures indicate that a few
days of treatment with a stimulus is sufficient to modulate monocyte/macrophage
polarization. This will provide valuable information on the direct effects of the drug on
this inflammatory pathway.
Endothelial progenitor cells (EPCs) are vasculoprotective cells released from the bone
marrow (BM) in response to ischemia, hypoxia and tissue injury. Once in the bloodstream,
EPCs home to damaged tissues and help restoring a healthy and functional vasculature, by
means of endothelial repair and angiogenesis. In steady-state conditions, CD34+KDR+ EPCs
circulate in peripheral blood (PB) at very low levels and their release from the BM is
coordinated by the sympathetic nervous system. It has been demonstrated that levels of EPC
and generic CD34+ PC are predictors of future cardiovascular events, cardiovascular death
and all-cause mortality. We have previously shown that Sitagliptin raised EPCs levels in 4
weeks. Herein, we aim to confirm those findings using Linagliptin, with a shorter time
point.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Single Blind (Subject), Primary Purpose: Prevention
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