The Wnt Target Protein Peter Pan Defines a Novel p53-independent Nucleolar Stress-Response Pathway

Proper ribosome formation is a prerequisite for cell growth and proliferation. Failure of this process results in nucleolar stress and p53-mediated apoptosis. The Wnt target Peter Pan (PPAN) is required for 45 S rRNA maturation. So far, the role of PPAN in nucleolar stress response has remained elusive. We demonstrate that PPAN localizes to mitochondria in addition to its nucleolar localization and inhibits the mitochondrial apoptosis pathway in a p53-independent manner. Loss of PPAN induces BAX stabilization, depolarization of mitochondria, and release of cytochrome c, demonstrating its important role as an anti-apoptotic factor. Staurosporine-induced nucleolar stress and apoptosis disrupt nucleolar PPAN localization and induce its accumulation in the cytoplasm. This is accompanied by phosphorylation and subsequent cleavage of PPAN by caspases. Moreover, we show that PPAN is a novel interaction partner of the anti-apoptotic protein nucleophosmin (NPM). PPAN depletion induces NPM and upstream-binding factor (UBF) degradation, which is independent of caspases. In summary, we provide evidence for a novel nucleolar stress-response pathway involving PPAN, NPM, and BAX to guarantee cell survival in a p53-independent manner.     

Growth hormone control of glucose oxidation pathways in hypophysectomized rats.

An in vivo response of glucose oxidation to growth hormone has been demonstrated. Hypophysectomized rats were found to oxidize glucose at rates significantly higher than normal rats. Treatment with growth hormone 1 h before injection of 14C-U-glucose, 14C-6-glucose, or 14C-1-glucose caused a return to a normal oxidation pattern. This acute response was independent of insulin action but clearly time-dependent since no change from untreated hypophysectomized rats appeared when growth hormone was given at various times prior to administration of labeled glucose. The response observed for 14C-6-glucose was comparable to that observed for 14C-1-glucose with regard to dynamics but differed with respect to total 14C recovered as 14CO2. The cumulative percent 14CO2 recovered from oxidation of 14C-6-glucose 1 h after growth hormone injection exceeded that recovered from oxidation of 14C-1-glucose. These results suggest a change in glucose oxidation by a route that cannot be explained solely by changes in either the hexose monophosphate or Embden-Meyerhof pathways.     

Multivariate analysis for the understanding of typical diabetic hemostasis criteria. 3. Determination of a typical retinopathy parameter-constellation]

Features of metabolism and haemostasis which are different in diabetics of both types in comparison with normal subjects were covered by the statistical method of multivariance analysis depending on the severity of diabetic retinopathy. In 29 diabetics without retinopathy, 46 patients with stage I or II, and 36 patients with stage III the following parameters could be found as optimal criteria for characterizing the extent of vascular changes: blood sugar concentration, concentration of sialic acid and HDL cholesterol in the serum, serum protein, sialic acid per protein volume, total cholesterol in the serum and capillary fragility and number of large spreading forms of platelets features of hemostasis. Thus, diabetic retinopathy is characterized by a wide spectrum of different features containing the parameters of hemostasis. Thrombocytic vascular interactions are characterized by platelet spreading and capillary fragility which are significant for the development of diabetic retinopathy.