Curcumin improves reversal learning in middle-aged rhesus monkeys.
Ajay UpretyMark B MossDouglas L RoseneRonald J KillianyTara L MoorePublished in: Behavioral neuroscience (2021)
Age-related impairments in cognitive function occur in multiple animal species including humans and nonhuman primates. Humans and rhesus monkeys exhibit a similar pattern of cognitive decline beginning in middle age, particularly within the domain of executive function. The prefrontal cortex is the brain region most closely associated with mediating executive function. Previous studies in rhesus monkeys have demonstrated that normal aging leads to an increase in myelin degradation in the prefrontal regions that correlates with cognitive decline. This myelin deterioration is thought to result, at least in part, from the age-related emergence of chronic low levels of inflammation. One therapeutic that may arrest the deleterious effects of neuroinflammation is curcumin (CUR), the primary component of the spice turmeric. CUR has been shown to be a potent anti-inflammatory and antioxidant and improves performance on tasks for working memory and motor function. In the present study, middle-aged monkeys (12-21 years old) were given daily dietary supplementation of 500 mg of curcumin or vehicle over a period of 3-4 years. Here, we present data from a series of both object and spatial reversal tasks. Compared to vehicle, the CUR group showed enhanced performance on object, but not spatial reversal learning. These findings suggest that curcumin may improve specific aspects of executive function. (PsycInfo Database Record (c) 2021 APA, all rights reserved).
Keyphrases
- working memory
- cognitive decline
- middle aged
- mild cognitive impairment
- anti inflammatory
- prefrontal cortex
- transcranial direct current stimulation
- white matter
- attention deficit hyperactivity disorder
- oxidative stress
- resting state
- traumatic brain injury
- multiple sclerosis
- cell cycle
- electronic health record
- cerebral ischemia
- cognitive impairment
- functional connectivity
- adverse drug
- inflammatory response
- drug induced
- deep learning
- upper limb