Blubber transcriptome response to acute stress axis activation involves transient changes in adipogenesis and lipolysis in a fasting-adapted marine mammal.

Stress can compromise an animal's ability to conserve metabolic stores and participate in energy-demanding activities that are critical for fitness. Understanding how wild animals, especially those already experiencing physiological extremes (e.g. fasting), regulate stress responses is critical for evaluating the impacts of anthropogenic disturbance on physiology and fitness, key challenges for conservation. However, studies of stress in wildlife are often limited to baseline endocrine measurements and few have investigated stress effects in fasting-adapted species. We examined downstream molecular consequences of hypothalamic-pituitary-adrenal (HPA) axis activation by exogenous adrenocorticotropic hormone (ACTH) in blubber of northern elephant seals due to the ease of blubber sampling and its key role in metabolic regulation in marine mammals. We report the first phocid blubber transcriptome produced by RNAseq, containing over 140,000 annotated transcripts, including metabolic and adipocytokine genes of interest. The acute response of blubber to stress axis activation, measured 2 hours after ACTH administration, involved highly specific, transient (lasting <24 hours) induction of gene networks that promote lipolysis and adipogenesis in mammalian adipocytes. Differentially expressed genes included key adipogenesis factors which can be used as blubber-specific markers of acute stress in marine mammals of concern for which sampling of other tissues is not possible.

Human natriuretic factor in cirrhotic patients undergoing orthotopic liver transplantation.

We measured the plasma levels of atrial natriuretic factor (ANF) during orthotopic liver transplantation (OLT) in eight adult patients with cirrhosis and ascites. The aim of this study was to determine whether significant differences in ANF concentration may be detected during the individual phases of OLT and to correlate these changes with hemodynamics. In each patient a hemodynamic assessment was achieved using a Swan-Ganz fiber optic catheter for continuous monitoring of cardiac output (CO), systemic vascular resistance index (SVRI), right filling pressure as assessed by central venous pressure (CVP), and left filling pressure by means of pulmonary arterial wedge pressure (PAWP). During reperfusion a clear-cut increase in ANF values was observed (P < 0.05). Concurrently, an increase in CVP (P < 0.05) and a decrease in SVRI were observed without any significant increase in diuresis. These data suggest that ANF might play a role in the development of the reperfusion syndrome.

[Differences in potential and content of the mucus in the stomach of the rat with avitaminosis A]. / Differenza di potenziale e contenuto di muco nello stomaco di ratto in avitaminosi A.

Vitamin A (vit. A) acts in the synthesis of glycoproteins and in cell surface phenomena of epithelia. Since the glycoproteins of gastric mucus and the integrity of gastric cell membranes are components of gastric barrier (GB), vit. A could play a role in GB. Five groups of rats were used: I) rats fed on vit. A deficient diet; II) rats pair-fed plus a daily oral dose of 45 micrograms vit. A; III) normal rats; IV) rats recovered from avitaminosis A (avit. A) after 20 days of daily oral dose of 300 micrograms vit. A; V) rats pair-fed plus a daily oral dose of 45 micrograms vit. A. We measured: 1) transparietal gastric potential difference (PD) in vivo (by means of agar-KCl electrodes); 2) mucus (by binding of Alcian blue): in gastric mucosa; adherent to gastric mucosa; in gastric lumen; 3) dry weight of the stomach. Avit. A induced: i) a decrease of PD and mucus in mucosa and lumen; ii) an increase of mucus adherent to mucosa; iii) an increase of the percentage of dry weight on wet weight. All parameters were normal after recovery from avit. A. Results suggest that avit. A could reduce either mucus synthesis or its erosion. Moreover avit. A might modify mucus structure and sterical configuration of mucosal cells. The alteration of mucosal cell membranes could decrease PD. In conclusion the modifications of some components of rat GB seem specifically caused by avit. A and suggest a protective role of vit. A.