Cre activity is undetectable in MIP-Cre/ERT brain. Mice were injected intraperitoneally with three 2-mg doses of tamoxifen over a 5-day period. Brains from adult MIP-Cre/ERT; R26R^wt/lacZ (n = 5) and their R26R^wt/lacZ littermates (n = 5) (24) were sliced into five coronal sections and subjected to whole-mount X-gal staining. A: Sagittal view of mouse brain. The schematic of the mouse brain is from the Allen Mouse Brain Atlas (http://www.brain-map.org/) (29). Brain slices examined are shown in capital letters (A, B, C, etc.). Vertical dashed lines mark coronal sectioning plane designated as face in lowercase letters (a, b, c, etc.). B: Images of individual brain slices from each coronal sectioning plane. C: Sagittal brain sections from MIP-Cre/ERT; R26R^wt/lacZ (top panel) and R26R^wt/lacZ littermates (bottom panel). D: Whole-mount X-gal staining of pancreas from MIP-Cre/ERT; R26R^wt/lacZ (top panel) and R26R^wt/lacZ littermates (bottom panel). Brains from MIP-Cre/ERT; R26R^wt/lacZ mice and controls in B and C were negative for X-gal staining, while MIP-Cre/ERT; R26R^wt/lacZ pancreas showed robust X-gal labeling in the islets in D. CTX, cortex; HY, hypothalamus. (A high-quality digital representation of this figure is available in the online issue.)

Pdx1-Cre^Dam;R26R^wt/lacZ mice display a complex pattern of Cre-mediated recombination that partially overlaps with orexin-positive and leptin-responsive neuronal populations. Adult Pdx1-Cre^Dam;R26R^wt/lacZ mice were treated with leptin (5 mg/kg, intraperitoneally, 2 h), perfusion-fixed and brains isolated for immunohistochemical detection of pSTAT3, orexin, and β-gal positive. Localization of β-gal signal in brain sections of adult Pdx1-Cre^Dam;R26R^wt/lacZ mice is available in supplementary Fig. 10. A–C: pSTAT3 (green) and β-gal (red) immunoreactivity do not co-localize efficiently in the arcuate nucleus (ARC). D–I: Co-localization of pSTAT3 (green) and β-gal (red) immunoreactivity in a subpopulation of neurons in the lateral hypothalamus (LHA). Despite extensive β-gal labeling within the preoptic area, there was essentially no co-localization with leptin-responsive neurons (data not shown). J–O: Co-localization of orexin (green) and β-gal (red) immunoreactivity within neurons in the LHA. Arrows indicate co-labeled neurons. All scale bars are either 50 μm or 200 μm (as indicated). The unlabeled scale bar in the ARC panel in A is 50 μm. (A high-quality digital representation of this figure is available in the online issue.)

RIP-Cre transgenic lines display Cre-mediated recombination in multiple regions of the brain. Adult brains were sliced into four or five coronal sections and subjected to whole mount X-gal staining. Images of individual brain slices from each sectioning plane are available in supplementary Figs. 1–4. A: Sagittal and coronal views of mouse brain (adapted from Allen Mouse Brain Atlas, http://www.brain-map.org/) (29). A dashed vertical line marks coronal sectioning plane spanning the hypothalamic region of the brain. B–E: Images of coronal brain slices located on the left side of the sectioning plane in the sagittal view in A. B: R26R^wt/lacZ littermate control mice (n = 17) lacked X-gal staining in the brain. The cortex (CTX) and hypothalamus (HY) are labeled and correspond to regions marked on the coronal view in A. C: RIP-Cre^Mgn;R26R^wt/lacZ mice (n = 8) showed X-gal staining throughout the brain with high signal intensity in the mid-brain and ventral regions. D: RIP-Cre^Herr;R26R^wt/lacZ mice (n = 14) showed weaker, punctate X-gal staining throughout the brain without obvious regionalization. E: RIP-Cre/ERT;R26R^wt/lacZ mice (n = 4) injected intraperitoneally with three 2-mg doses of tamoxifen over a 5-day period displayed strong, punctate X-gal staining throughout the brain with expression pattern more restricted than in RIP-Cre^Mgn; R26R^wt/lacZ mice. Brains from littermate controls injected with corn oil vehicle were negative for X-gal staining (data not shown). F–I: Whole-mount X-gal staining of pancreas from R26R^wt/lacZ in F, RIP-Cre^Mgn; R26R^wt/lacZ in H, RIP-Cre^Herr;R26R^wt/lacZ in G, and RIP-Cre/ERT;R26R^wt/lacZ mice in I. (A high-quality digital representation of this figure is available in the online issue.)

Pdx1-Cre transgenic lines show localized Cre-mediated recombination within specific regions of the brain including the hypothalamus. Adult brains were sliced, labeled, and imaged as described in Fig. 1. Images of individual brain slices from each sectioning plane are available in supplementary Figs. 5–7 and supplementary Fig. 9. A: Sagittal and coronal views of mouse brain. A dashed vertical line marks coronal sectioning plane spanning hypothalamic region of the brain. B–D: Images of coronal brain slices located on the left side of sectioning plane in the sagittal view in A. The schematics of the mouse brain are from the Allen Mouse Brain Atlas (http://www.brain-map.org/) (29). B: X-gal staining in Pdx1-Cre^Dam;R26R^wt/lacZ brain (n = 7) was localized to the brain stem and hypothalamus. C: X-gal positive cells in Pdx1-Cre^Tuv;R26R^wt/lacZ brain (n = 4) were localized to hypothalamic region. D: Adult Pdx1^AI-III-Cre/ERT;R26R^wt/lacZ mice (n = 4) were injected subcutaneously with three 8-mg doses of tamoxifen (right panel) and analyzed for lacZ expression. X-gal staining had a broader punctate pattern with high-intensity signal localized to the hypothalamic region. Brains from littermate controls injected with corn oil vehicle (n = 2) were negative for X-gal staining (data not shown). E: Brains from adult Pdx1^lacZ/wt mice (n = 4) were negative for X-gal staining. F–I: Whole-mount X-gal staining of pancreas from Pdx1-Cre^Dam;R26R^wt/lacZ in F, Pdx1-Cre^Tuv;R26R^wt/lacZ in G, Pdx1^AI-III-Cre/ERT;R26R^wt/lacZ mice in H, and Pdx1^lacZ/wt mice in I. J and K: Brains from Pdx1-Cre^Tuv;R26R^wt/lacZ embryos at e15.5 (n = 6) in J were analyzed for LacZ expression. X-gal staining indicated expression of Pdx1-Cre^Tuv transgene in the brain stem and ventral region of the brain that gives rise to the hypothalamus (arrows). Pancreas in K had expected X-gal staining. Similar results were obtained using the R26R^YFP reporter strain in supplementary Fig. 8. Brain and pancreas from R26R^wt/lacZ (n = 5) and R26R^wt/YFP (n = 6) e15.5 controls were negative for X-gal staining and YFP fluorescence, respectively (supplementary Fig. 8). L and M: Brains from e15.5 Pdx1^lacZ/wt embryos (n = 7) in L were negative for X-gal staining, while pancreas showed expected X-gal positivity in M. In e15.5 Pdx1^wt/wt embryos (n = 10), both brain and pancreas were X-gal negative (supplemental Fig. 9). CTX, cortex; D, duodenum; DP, dorsal pancreas; HY, hypothalamus; IIIv, third ventricle; PH, posterior hypothalamic region; Sp, spleen; St, stomach; VP, ventral pancreas. (A high-quality digital representation of this figure is available in the online issue.)