95 and 2375 h respectively, did not differ (t10 = 048, P > 005

95 and 23.75 h respectively, did not differ (t10 = 0.48, P > 0.05), nor did the acrophases (t10 = 1.2, P > 0.05)., which were 24.22 h for KO animals and 23.12 h for WT animals (see Table S2). Over the course of the feeding experiment, the genotypes did not differ in body weight (KO, 28 + 0.19; WT, 28 + 0.19 g; t30 = 0.16, P > 0.05), nor daily food intake (KO, 5.0 + 0.20; WT, 5.1 + 0.18 g; t30 = 0.23, P > 0.05). As can be seen in Fig. 12, both GHSR-KO and WT mice entrained to a 24-h feeling E7080 purchase schedule while in DD. Both genotypes showed periods that were nearly 24 h

(t10 = 1.2, P > 0.05) during the last 10 days of the scheduled feeding period (see Fig. 7 and Table S2). Acrophases occurred shortly before the beginning of the feeding period

in KO animals (KO, 07.51 h) and ≈ 1 h after food availability in WT animals (WT, 09.55 h), but did not differ statistically significantly (t10 = 0.99, P > 0.05; see Fig. 7). Total daily running activity during the RF period in DD (see Fig. 8) showed the opposite effect to that seen in LL, with a main effect of genotype (F1,170 =21.90, P < 0.0001), revealing greater total activity in the WT group, but post hoc tests were not significant. There was a trend for a main effect of day (F16,170 = 1.67, P = 0.058), but no day × genotype interaction for total activity (see Fig. 8, left panel). An analysis of the running-wheel activity in the 4 h immediately before food access also Epacadostat showed greater anticipatory activity in WT animals for a couple of days before KO animals reached the same level. anova revealed a main effect of day (F16,160 = 7.64, P < 0.0001),

no effect of genotype interaction, but a trend for a day × genotype interaction (F16,160 = 6.55, P = 0.088). Post hoc analyses showed a significant difference between Obeticholic Acid research buy WT and KO animals on day 5 of the restricted feeding schedule (see Fig. 8, central panel). A visual inspection of the data suggested that the difference between the two genotypes occurred only within the first week after beginning scheduled feeding, so this analysis was rerun with only the first 7 days. Under these conditions, the interaction between day and genotype achieved significance (F9,90 = 2.11, P = 0.037). A t-test of the first 7 days of activity during the 4-h pre-meal period showed a strong trend towards greater activity in WT animals than in KOs (t12 = 1.6, P = 0.06; see Fig. 8). Figure 9 shows histochemical expression of the LacZ reporter gene on the GHSR promoter, indicating the location of the ghrelin receptor. Staining was seen in hypothalamic outputs of the SCN such as the subparaventricular zone (SPVZ) (Fig. 9A), DMH (Fig. 9E and G), paraventricular nucleus of the hypothalamus (PVN; Fig. 9C and D) and arcuate nucleus (ARC; Fig. 9E and H), while the SCN (Fig. 9A), ventromedial hypothalamus (VMH) (Fig. 9E and G) and lateral hypothalamus (LH; Fig. 9E and F) had staining that was discernable but less robust.

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