The neuropeptides hypocretins (orexins), the loss of which results in the sleep disorder narcolepsy, are hypothesized to be involved in the consolidation of wakefulness and have been proposed to be part of the circadian-driven alertness signal. In order to elucidate the role of hypocretins in the consolidation of human wakefulness, we examined the effect of wake-extension on hypocretin-1 in squirrel monkeys, primates that consolidate wakefulness during the daytime as do humans. Wake was extended up to seven hours with hypocretin-1, cortisol, ghrelin, leptin, locomotion, and feeding all being assayed. Hypocretin-1 (p<0.01), cortisol (p<0.001), and locomotion (p<0.005) all increased with sleep deprivation, while ghrelin (p=0.79) and leptin (p=1.00) did not change with sleep deprivation. Using cross-correlation and multivariate modeling of these potential covariates along with homeostatic pressure (a measure of time awake/asleep), we found that time of day and homeostatic pressure together explained 44% of the variance in the hypocretin-1 data (p<0.001), while cortisol did not significantly contribute to the overall hypocretin-1 variance. Locomotion during the daytime, but not during the nighttime, helped explain less than 5% of the hypocretin-1 variance (p<0.05). These data are consistent with earlier evidence indicating that, in the squirrel monkey, hypocretin-1 is mainly regulated by circadian inputs and homeostatic sleep pressure. Concomitants of wakefulness that affect hypocretin-1 in polyphasic species, such as locomotion, food intake and food deprivation likely have a more minor role in monophasic species such as humans.