OBJECTIVES: Circulating low molecular weight (<10 kDa) fluorophores (LMW-F) measured by non-specific fluorescence spectroscopy may detect small advanced glycation end-products (AGEs) not recognized by other assays. This longitudinal study assessed correlates of LMW-F and predictive power of LMW-F levels for vascular health in Type 1 diabetes (T1DM) patients. METHODS: Fasting patients with T1DM (n=37) were studied twice at intervals of 12-60 months (mean+/-SD, 33+/-15 months). LMW-F levels were also measured once in 112 healthy control subjects. RESULTS: Relative to controls, LMW-F levels were higher in diabetic subjects at initial and final time points (mean+/-SD), 5.4+/-1.9 AU/ml and 4.5+/-1.8 AU/ml respectively vs. 3.8+/-2.1 AU/ml; p=0.0001 and p=0.06). Baseline LMW-F levels predicted subsequent hs-CRP and oxLDL/LDL values. LMW-F levels decreased significantly over time in diabetes (5.4+/-1.9 vs. 4.5+/-1.8 AU/ml; p=0.02). Rises in LMW-F levels in individual diabetic subjects correlated significantly with worsening renal function (BUN), glycemia (HbA1c) and with vascular dysfunction (systemic vascular resistance). CONCLUSIONS: LMW-F levels predict levels of inflammation and oxidation in T1DM. Changes in LMW-F levels in T1DM reflect variations in glycemia and renal function. Biochemical characterization of LMW-F would facilitate understanding of the potential utility of LMW-F as a therapeutic target.
OBJECTIVES: Circulating low molecular weight (<10 kDa) fluorophores (LMW-F) measured by non-specific fluorescence spectroscopy may detect small advanced glycation end-products (AGEs) not recognized by other assays. This longitudinal study assessed correlates of LMW-F and predictive power of LMW-F levels for vascular health in Type 1 diabetes (T1DM) patients. METHODS: Fasting patients with T1DM (n=37) were studied twice at intervals of 12-60 months (mean+/-SD, 33+/-15 months). LMW-F levels were also measured once in 112 healthy control subjects. RESULTS: Relative to controls, LMW-F levels were higher in diabetic subjects at initial and final time points (mean+/-SD), 5.4+/-1.9 AU/ml and 4.5+/-1.8 AU/ml respectively vs. 3.8+/-2.1 AU/ml; p=0.0001 and p=0.06). Baseline LMW-F levels predicted subsequent hs-CRP and oxLDL/LDL values. LMW-F levels decreased significantly over time in diabetes (5.4+/-1.9 vs. 4.5+/-1.8 AU/ml; p=0.02). Rises in LMW-F levels in individual diabetic subjects correlated significantly with worsening renal function (BUN), glycemia (HbA1c) and with vascular dysfunction (systemic vascular resistance). CONCLUSIONS:LMW-F levels predict levels of inflammation and oxidation in T1DM. Changes in LMW-F levels in T1DM reflect variations in glycemia and renal function. Biochemical characterization of LMW-F would facilitate understanding of the potential utility of LMW-F as a therapeutic target.
Authors: Andrzej S Januszewski; David Chen; Russell S Scott; Rachel L O'Connell; Nanda R Aryal; David R Sullivan; Gerald F Watts; Marja-Riitta Taskinen; Philip J Barter; James D Best; R John Simes; Anthony C Keech; Alicia J Jenkins Journal: Sci Rep Date: 2021-09-21 Impact factor: 4.379