Medical hypotheses
-
Reducing sugars can react non-enzymatically with amino groups of protein to form Amadori products. These early glycation products undergo further complex reaction such as rearrangement, dehydration, and condensation to become irreversibly cross-linked, heterogeneous fluorescent derivatives, termed advanced glycation end products (AGEs). The formation and accumulation of AGEs in various tissues has been known to progress at an accelerated rate under hyperglycemic conditions in diabetes. ⋯ Since several lines of evidence have shown anti-atherogenic effects of Chlorella on animal models, we hypothesize here that the beneficial aspects of Chlorella on atherosclerosis could be ascribed, at least in part, to its AGE inhibitory property and that Chlorella may have therapeutic potentials in treatment of patients with other AGE-related disorders such as diabetic microangiopathy and Alzheimer's disease. In this paper, we would like to propose the possible ways of testing our hypotheses. Does daily intake of Chlorella reduce the risk of the incidence and progression of diabetic vascular complications including atherosclerosis? Does Chlorella treatment prevent the development of Alzheimer's disease and/or improve the cognitive impairment of patients with this disorder? If the answers are yes, are plasma or tissue levels of AGE in these patients actually suppressed by Chlorella treatment? And, does the extent of the AGE reduction by Chlorella predict the beneficial effects of Chlorella on these disorders? These prospective studies will provide further valuable information whether blockade by Chlorella of the AGE formation could be clinically relevant.
-
A non-enzymatic reaction between ketones or aldehydes and the amino groups of proteins contributes to the aging of proteins and to pathological complications of diabetes. Under hyperglycemic conditions in diabetes, this process begins with the conversion of reversible Schiff base adducts, and then to more stable, covalently-bound Amadori rearrangement products. Over a course of days to weeks, these early glycation products undergo further reactions and rearrangements to become irreversible crossed-linked, fluorescent protein derivatives termed advanced glycation end products (AGEs). ⋯ Since RAGE is a signal-transducing receptor for AGEs and subsequently evokes inflammatory responses in various types of cells, thus eliciting angiogenesis and thrombogenesis, we hypothesize here that blockade of RAGE expression by nifedipine may have therapeutic potentials in treatment of patients with various AGE-related disorders. In this paper, we would like to propose the possible ways of testing our hypothesis. Does nifedipine treatment reduce the development and progression of diabetic vascular complications? If the answer is yes, is this beneficial effect of nifedipine superior than that of other DHPs with equihypotensive properties? Does nifedipine treatment decrease the incidence of melanoma and/or prolong the survival of patients with this devastating disorder? These prospective studies will provide further valuable information whether blockade by nifedipine of the AGE-RAGE signaling could be clinically relevant.
-
Colorectal cancer is a major public health problem, being the second most common cause of cancer in developed countries. Several epidemiological studies have reported moderately increased risks of colorectal cancer in diabetic patients compared with general population. However, the underlying molecular link between diabetes and colorectal cancer remains to be elucidated. ⋯ These observations let us to hypothesize that AGEs could explain the molecular link between diabetes and colorectal cancer. In this paper, we would like to propose the possible ways of testing our hypotheses. Is elevation of serum AGE levels a risk factor for colorectal cancer in patients with diabetes? Does treatment with metformin, which has a potential effect on the inhibition of glycation reactions in vivo, decrease the risk for colorecetal cancer in diabetic patients? If the answer is yes, is this beneficial effect of metformin superior to that of other anti-diabetic agents with equihypoglycemic properties? Does treatment with pyridoxamine, a post-Amadori inhibitor (so-called Amadorins) of AGE formation, reduce the risk for colorectal cancer as well? Furthermore, are increased levels of AGEs and RAGE in colorectal cancer associated with poor prognosis in patients with diabetes? These clinical studies could clarify whether the AGEs-RAGE interactions serve as a causal link between diabetes and colorectal cancer.
-
Comment Letter
Consideration of medical research vs. scientific research.
-
Osteoporosis, one of the most prevalent metabolic bone diseases in developed countries, is a major public health problem through its association with fragility fractures. Several epidemiological studies have reported moderately increased risks of osteoporotic bone fractures in diabetic patients compared with general population. However, the underlying molecular link between diabetes and osteoporosis remains to be elucidated. ⋯ These observations let us to hypothesize that AGEs could explain the molecular link between diabetes and osteoporosis. In this paper, we would like to propose the possible ways of testing our hypotheses. Does treatment with metformin, which has a potential effect on the inhibition of glycation reactions in vivo, decrease the risk for osteoporotic bone fractures in diabetic patients? If the answer is yes, is this beneficial effect of metformin superior to that of other anti-diabetic agents with equihypoglycemic properties? Does treatment with pyridoxamine, a post-Amadori inhibitor (so-called Amadorins) of AGE formation, reduce the risk for osteoporotic bone fractures as well? Furthermore, are increased levels of AGEs and RAGE in bone tissues associated with high risk for bone fractures in patients with diabetes? These clinical studies could clarify whether the AGEs-RAGE interactions serve as a causal link between diabetes and osteoporosis.