The Interplay between Diabetes and Alzheimer's Disease-In the Hunt for Biomarkers.
Adriana Kubis-KubiakAleksandra DybaAgnieszka PiwowarPublished in: International journal of molecular sciences (2020)
The brain is an organ in which energy metabolism occurs most intensively and glucose is an essential and dominant energy substrate. There have been many studies in recent years suggesting a close relationship between type 2 diabetes mellitus (T2DM) and Alzheimer's disease (AD) as they have many pathophysiological features in common. The condition of hyperglycemia exposes brain cells to the detrimental effects of glucose, increasing protein glycation and is the cause of different non-psychiatric complications. Numerous observational studies show that not only hyperglycemia but also blood glucose levels near lower fasting limits (72 to 99 mg/dL) increase the incidence of AD, regardless of whether T2DM will develop in the future. As the comorbidity of these diseases and earlier development of AD in T2DM sufferers exist, new AD biomarkers are being sought for etiopathogenetic changes associated with early neurodegenerative processes as a result of carbohydrate disorders. The S100B protein seem to be interesting in this respect as it may be a potential candidate, especially important in early diagnostics of these diseases, given that it plays a role in both carbohydrate metabolism disorders and neurodegenerative processes. It is therefore necessary to clarify the relationship between the concentration of the S100B protein and glucose and insulin levels. This paper draws attention to a valuable research objective that may in the future contribute to a better diagnosis of early neurodegenerative changes, in particular in subjects with T2DM and may be a good basis for planning experiments related to this issue as well as a more detailed explanation of the relationship between the neuropathological disturbances and changes of glucose and insulin concentrations in the brain.
Keyphrases
- blood glucose
- glycemic control
- type diabetes
- weight loss
- resting state
- white matter
- insulin resistance
- amino acid
- protein protein
- functional connectivity
- risk factors
- binding protein
- cognitive decline
- induced apoptosis
- current status
- cardiovascular disease
- working memory
- mental health
- small molecule
- multiple sclerosis
- cell proliferation
- metabolic syndrome
- mild cognitive impairment
- cell cycle arrest
- skeletal muscle
- endoplasmic reticulum stress
- human health
- pi k akt