BACKGROUND: L-Lysine (L-Lys) has been known as an inhibitor of protein glycation; however, its long-term use for diabetes treatment considering different aspects of diabetic complication is not seen in the literature. In addition, the effect of L-Lys, as a chemical chaperone, was considered on protein folding and activity. METHODS: The streptozotocin-induced diabetic rats were used as a model of diabetes. Normal and diabetic rats were studied for 5 months with and without 0.1% of L-Lys in drinking water. Serum glucose, advanced glycation end product (AGEs), haemoglobin A(1C) (HbA(1c)), triglyceride, total cholesterol, HDL-cholesterol, antioxidant activity, advanced oxidation protein products, fasting insulin level and body weight were determined at 4-week intervals. Heat shock protein (HSP)70, Lecithin: cholesterol acyl transferase (LCAT) and paraoxonase activity were determined 1 week after diabetes induction (time 0), and after 3 and 5 months. The structure of glycated and normal serum albumin (Alb) in the presence and absence of L-Lys was also investigated in an in vitro study using spectrofluorometry and circular dichroism (CD). RESULTS: We found that L-Lysine therapy prevented diabetic- induced increases in Glc, AGE, HbA(1c), triglyceride, total- and LDL- cholesterol, and it caused an increase in the decreased antioxidant capacity, HDL-c, HDL functionality and HSP70. L-Lys had no effect on serum insulin level. The conformation of Alb changed due to glycation and L-Lys retained it similar to the native. CONCLUSIONS: L-Lys, not only as an inhibitor of glycation but also as a chemical chaperone and a protein chaperone inducer, causes effective changes in many parameters of the model animals. However, it is not enough to achieve complete improvement. 2007 John Wiley & Sons, Ltd
BACKGROUND:L-Lysine (L-Lys) has been known as an inhibitor of protein glycation; however, its long-term use for diabetes treatment considering different aspects of diabetic complication is not seen in the literature. In addition, the effect of L-Lys, as a chemical chaperone, was considered on protein folding and activity. METHODS: The streptozotocin-induced diabeticrats were used as a model of diabetes. Normal and diabeticrats were studied for 5 months with and without 0.1% of L-Lys in drinking water. Serum glucose, advanced glycation end product (AGEs), haemoglobin A(1C) (HbA(1c)), triglyceride, total cholesterol, HDL-cholesterol, antioxidant activity, advanced oxidation protein products, fasting insulin level and body weight were determined at 4-week intervals. Heat shock protein (HSP)70, Lecithin: cholesterol acyl transferase (LCAT) and paraoxonase activity were determined 1 week after diabetes induction (time 0), and after 3 and 5 months. The structure of glycated and normal serum albumin (Alb) in the presence and absence of L-Lys was also investigated in an in vitro study using spectrofluorometry and circular dichroism (CD). RESULTS: We found that L-Lysine therapy prevented diabetic- induced increases in Glc, AGE, HbA(1c), triglyceride, total- and LDL- cholesterol, and it caused an increase in the decreased antioxidant capacity, HDL-c, HDL functionality and HSP70. L-Lys had no effect on serum insulin level. The conformation of Alb changed due to glycation and L-Lys retained it similar to the native. CONCLUSIONS:L-Lys, not only as an inhibitor of glycation but also as a chemical chaperone and a protein chaperone inducer, causes effective changes in many parameters of the model animals. However, it is not enough to achieve complete improvement. 2007 John Wiley & Sons, Ltd
Authors: S Zahra Bathaie; B B Fateme Nobakht; Hossein Mirmiranpour; Akbar Jafarnejad; S Zahra Moosavi-Nejad Journal: Protein J Date: 2011-10 Impact factor: 2.371
Authors: S Mehdi Ebrahimi; S Zahra Bathaie; Nassim Faridi; Mohammad Taghikhani; Manouchehr Nakhjavani; Soghrat Faghihzadeh Journal: PLoS One Date: 2019-12-19 Impact factor: 3.240