Cognitive, neurohistological and mortality outcomes following the four-vessel occlusion/internal carotid artery model of chronic cerebral hypoperfusion: The impact of diabetes and aging

[Display omitted] •Diabetes worsens mortality after chronic cerebral hypoperfusion (CCH) in young and middle-aged rats.•Diabetes worsens body weight loss after CCH in middle-aged rat.•Diabetes worsens memory loss after CCH in young and middle-aged rats.•Diabetes worsens cell death and white matter lesion after CCH in middle-aged rats.•Diabetes worsens neuroinflammation after CCH in middle-aged rats. Chronic cerebral hypoperfusion (CCH) may be involved in the etiology of aging-related dementias, and several risk factors contribute to their development and/or aggravation. We previously reported on the development of the 4-VO/ICA model of CCH, and the impact of hypertension on the cognitive and histological outcomes of CCH. Here, we advanced those studies by investigating how 4-VO/ICA alone or in combination with diabetes affects survival, body weight and cognitive performance in both young and middle-aged rats. Subsequently, middle-aged rats were examined for the impact of diabetes on CCH-induced neurodegeneration, white matter damage, and glial cells response. Diabetes alone reduced body weight and increased mortality rate slightly in young rats; these effects were striking, however, in the older animals. After CCH alone, neither body weight nor mortality rate changed significantly in both age groups. However, when CCH was combined with diabetes, mortality rate increased significantly in both aged groups. Young rats were cognitively asymptomatic to CCH, but they became ‘mildly’ impaired after CCH combined with diabetes. In middle-aged rats, CCH severely impaired memory, which was significantly worsened by diabetes. Moreover, diabetes aggravated neurodegeneration in the hippocampus and white matter injury in the corpus callosum and it promoted glial activation in the hippocampus and white matter of CCH middle-aged rats. These data suggest that diabetes interacts synergistically with age and reduces the capacity of the brain to adequately respond to CCH and highlight the importance of associating risk factors in the preclinical investigation of age-related cerebrovascular diseases physiopathology and potential therapies.