Sex-specific impact of food restriction on weight loss and serum leptin.

(A) Animal weight across time. (B) Daily food intake (two-way ANOVA: CTR male vs. CTR female; p = 0.99; FR male vs. FR female; p = 0.07; n = 8 CTR males, 8 FR males, 7 CTR females, and 7 FR females). Percent reduction of food intake for food restriction is shown in red for each sex. (C) Animal weight (two-way ANOVA: n = 17 CTR males and 19 FR males; 22 CTR females and 11 FR females). (D) Serum leptin levels (two-way ANOVA: CTR females vs FR females; p=0.32; n = 17 CTR males and 19 FR males; 22 CTR females and 11 FR females). (E) Left. AMPK Thr172 phosphorylation, normalized by total AMPK, in primary visual cortex (V1) tissue (two-way ANOVA: CTR female vs. FR female; p = 0.11; n = 11 CTR males, 15 FR males, 11 CTR females, and 6 FR females). Right. PPARα activity in V1 tissue, as assessed by levels of DNA binding, normalized to protein level (two-way ANOVA: CTR female vs. FR female; p = 0.99; n = 5 CTR males, 11 FR males, n = 9 CTR females, and 9 FR females). *p < 0.05; n.s. = not significant. Error bars are S.E.M.

Cellular energy-regulating pathways are more robustly impacted by food restriction in males than in females.

(A) Schema of RNA sequencing of V1 tissue. (B) Volcano plot of fold change expression with food restriction vs. significance for all analyzed genes; broken horizontal line denotes adjusted p < 0.1 significance level, below which non-significantly regulated expressed genes are marked by grey. Inset: Venn diagram showing the number of significantly differentially expressed genes with food restriction in males and females. (C) Gene Set Enrichment Analysis using Hallmark Gene Sets, depicted using a volcano plot of Enrichment Score vs. significance for males (left) and females (right); broken horizontal lines denotes adjusted p < 0.05 significance level. Inset: Venn diagram showing the number of significantly regulated gene sets with food restriction in males and females. (D) Complete list of significantly enriched gene sets by food-restriction in males and females for analysis in C. Gene sets of interest are denoted by a box. All data from 4 CTR males, 4 FR males, 4 CTR females, and 4 FR females.

ATP use and orientation selectivity in V1 is more robustly decreased by food restriction in males.

(A) Schemata of ATP imaging experiment. Top: example field of view of V1 layer 2/3 neurons in the ATeam1.03YEMK transgenic mouse (scale bar: 10 μm). Bottom: ATP synthesis inhibitors were used to isolate ATP usage, recorded as a decrease in FRET signal during presentation of natural, outdoor scenes. (B) Normalized ATeam1.03YEMK FRET signal in males and during presentation of natural, outdoor scenes. ATP synthesis inhibitors (arrow) were added to isolate ATP usage. Inset: Time to 50% decay of the ATeam1.03YEMK FRET signal (two-way ANOVA; n = 11 CTR males and 10 FR males). (C) As in (B) but for females (inset: two-way ANOVA; p = 0.18; n = 12 CTR females and n = 8 FR females). (D) Top: Schema of two-photon imaging and sample field of view of V1 layer 2/3 neurons expressing GCaMP6s (scale bar: 10 μm). Bottom: Sample fluorescent signals (grey) from a selected neuron (black circle) in response to 6 drifting gratings of varying orientations. Trial averages are in black. Horizontal bar denotes 2s grating presentation. (E) Mean orientation tuning normalized to the response to the preferred orientation for CTR and FR males (data from 13). Note that -90° and +90° conditions correspond to the same visual stimulus. Inset: Orientation selectivity index (OSI; two-way ANOVA; n = 8 CTR and 8 FR males). (F) As in (E) but for females (Inset: two-way ANOVA; p = 0.08; n = 7 CTR females and 9 FR females). **p < 0.01; ***p < 0.001; n.s. = not significant. Error bars are S.E.M. Data from male mice are from a previously published dataset obtained under similar conditions13.

Bayes factor analysis reveals statistically robust impact of metabolic stress on V1 energy use and visual coding in males, but not in females.

Bayes factor (BF10) along with quantified effect size and 95% confidence intervals (CI) are shown for males (green) and females (purple). Across parameters, BF10 and effect sizes are greater for males than females, meaning that food restriction induces a more robust effect on visual cortical function and energy use in males than females.