Pituitary adenylate cyclase activating polypeptide (PACAP) is a neuropeptide critical to the regulation of the stress response, including a role in energy homeostasis. Mice lacking PACAP are cold sensitive and have impaired adrenergic-induced thermogenesis. Interestingly, Pacap null mice can survive cold housing if acclimated slowly, similar to observations in UCP1 deficient mice. We hypothesized that Pacap null mice employ alternate thermogenic pathways to compensate for impaired adaptive thermogenesis in male and female, Pacap-/- and Pacap+/+ mice acclimated to cold. Observations of behaviour and assessment of fibre type in skeletal muscles did not show evidence of prolonged burst shivering or changes in oxidative metabolism in male or female Pacap-/- mice during cold acclimation compared to Pacap+/+ mice. Despite previous work that has established impaired capacity for adaptive thermogenesis in Pacap null mice, adaptive thermogenesis can be induced in mice lacking PACAP to support survival with cold housing. Interestingly, sex-specific morphological and molecular differences in adipose tissue remodelling were observed in Pacap null mice compared to controls. Thus, sexual dimorphisms are highlighted in adipose tissue remodelling and thermogenesis with cold acclimation in the absence of PACAP.
Human embryonic stem cell (hESC)-derived pancreatic alpha and beta cells can be used to develop cell replacement therapies to treat diabetes. However, recent published differentiation protocols yield varying amounts of alpha and beta cells amidst heterogeneous cell populations. To visualize and isolate hESC-derived alpha and beta cells, we generated a GLUCAGON-2A-mScarlet and INSULIN-2A-EGFP dual fluorescent reporter (INSEGFPGCGmScarlet) hESC line using CRISPR/Cas9. We established robust expression of EGFP and mScarlet fluorescent proteins in insulin- and glucagon-expressing cells respectively without compromising the differentiation or function of these cells. We also showed the insulin- and glucagon-expressing bihormonal population at the maturing endocrine cell stage (Stage 6) lose insulin expression over time, while maintaining an alpha-like expression profile, suggesting these bihormonal cells are preferentially fated to become alpha-like cells in vitro. Together, the INSEGFPGCGmScarlet hESC line provides an efficient strategy for tracking populations of hESC-derived beta- and alpha-like cells.
Using the ICF, we were able to describe the range and extent of functioning problems experienced by patients with SCI who were admitted in our rehabilitation center. Moreover, the use of the ICF improved the interaction between specialists.
Pituitary Adenylate Cyclase Activating Polypetptide (PACAP) is a peptide hormone known to regulate energy homeostasis1. Mice lacking PACAP are cold sensitive and have impaired adrenergic-induced thermogenesis2-4. Interestingly, Pacap null mice can survive cold housing if acclimated slowly, similar to what was observed in UCP1 deficient mice4,5. We hypothesized that Pacap-/- mice employ alternate thermogenic pathways to compensate for impaired adaptive thermogenesis and assessed shivering thermogenesis and UCP1-dependent and UCP1-independent adaptive thermogenesis in male and female Pacap-/- and Pacap+/+ with cold acclimation (4°C). Assessment of oxidative fibres in skeletal muscles and behavioural observations did not show evidence of prolonged shivering in male or female Pacap-/- mice during cold acclimation compared to Pacap+/+ mice. We did however observe morphological and molecular differences in adipose tissues of Pacap-/- mice compared to Pacap+/+ mice that were distinct in males and females. Cold-acclimated, female Pacap-/- mice had decreased induction of UCP1 protein in intrascapular brown fat (iBAT), yet had a significantly higher beiging and UCP1 immunoreactivity (ir) in gonadal white fat (gWAT) compared to female Pacap+/+ mice. Furthermore, beiging was observed in inguinal white fat (ingWAT) and gWAT of female Pacap-/- mice housed at thermoneutrality (30°C), a finding not observed in Pacap+/+ control mice. Unlike female mice, we did not observe impaired UCP1 induction in iBAT of male Pacap-/- mice compared to Pacap+/+ mice, and this was associated with negligible UCP1-ir in male gWAT similar to wildtype controls. Despite previous work that has established impaired adaptive thermogenesis in Pacap-/- mice4, we show here that UCP1 protein can be induced in adipose tissues of Pacap-/- mice during cold acclimation, although to a lesser degree or in a different pattern compared to Pacap+/+ control mice. Taken together, this work suggests that while PACAP is clearly involved in regulating thermoregulation, it is not required for cold-induced UCP1 expression. In addition, this work highlights sexual dimorphism in adipose tissue remodeling and induction of thermogenesis with cold acclimation. References: (1) Rudecki AP, et al. Trends Endocrinol Metab. 2016;27(9), 620–632. (2) Gray SL, et al. J Mol Endocrinol. 2001;15(10), 1739–1747. (3) Gray SL, et al. J Endocrinol. 2002;143(10), 3946–3954. (4) Diané A, et al. J Endocrinol. 2014;222, 327–339. (5) Golozoubova V, et al. FASEB J. 2001;15, 2048–2050.
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