Description

Dietary restriction (DR) is an intervention demonstrated to increase healthy lifespan in various model organisms including yeast, worms, mice, and rhesus monkeys (Lee et al., 2016, Fontana et al., 2015). It has been investigated extensively as a therapeutic modality in metabolic disease such as hypertension, cardiovascular disease, and obesity, with evidence of benefit independent of weight loss (Wilkinson et al., 2020, Zhu et al., 2020, Di Francesco et al., 2018). The major DR regimens include caloric restriction (CR) (Fontana et al., 2010), time-restricted feeding (TRF) (Brandhorst et al., 2015), fasting mimicking diets (FMD) (Mirzaei et al., 2014), and intermittent fasting (IF) (Chaix et al., 2014). Within the broader, poorly defined concept of IF, specific regimens exist that have yet to be standardized, including alternate-day fasting (ADF), 5:2 intermittent fasting (fasting 2 days per week), and daily TRF (typically restricting eating to an 8 hour window with 16 hours of fasting) (Chaix et al., 2014, Stekovic et al., 2019).

Studies of the effects of several different forms of DR on the immune system have shown both pro- and anti-inflammatory effects on immune responses, particularly with chronic calorie restriction (Choi et al., 2017). Certain periodic dietary restrictions prevent immune dysfunction and restore normal immune functioning by decreasing the number of circulating autoimmune cells from circulation and activating tissue regenerative capacity (Cheng et al., 2014). Although both chronic CR and nutrient-restricted FMD require substantial lifestyle modifications and can prove challenging in terms of adherence, forms of TRF and IF provide reasonable alternatives while showing similar efficacy. This makes forms of DR involving fasting rather than CR more appealing as a clinical intervention.

While multiple studies have shown positive effects on the immune system with various IF regimens in the setting of rheumatoid arthritis (Müller et al., 2001), multiple sclerosis, and cancer, mechanistic data in healthy humans are lacking. Recent studies have demonstrated changes in immune cell distribution with various regimens of CR and IF in murine models, supporting the exploration of potentially similar changes in healthy humans (Nagai et al. 2019). In order to study mechanistic details of the immune changes seen with DR in healthy humans, we designed this trial to examine the effects of fasting dose on multiple immune cell populations and relevant cell surface markers. While we observe a cohort over what is effectively only a single cycle of ADF, here we make an important step in characterizing the immune modulation occurring with ADF. This is one of the most studied fasting regimens, with substantial possibility for use as a clinical therapy in the future.