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The influence of physiological parameters such as carbon substrate flux and O2 uptake rates on energy metabolism are reported with reference to biomass productivity in whey chemostat culture. The combined results show that oxidoreductive energy metabolism may be attained independently of the yeast reaching its maximum respiratory capacity. A novel metabolic interpretation is presented proposing that a relative imbalance between glycolysis and subsequent oxidative steps alone is sufficient to account for the observed results. By means of a mathematical model the results could be reproduced under all experimental conditions. The new interpretation provides an insight into the manner in which energy mettbolism is regulated and influences growth-related process Kluyveromyces marxianus, as well as other yeasts with similar physiological characteristics.
Correspondence to: J. I. Castrillo 相似文献
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LXR-dependent gene expression is important for macrophage survival and the innate immune response 总被引:16,自引:0,他引:16
Joseph SB Bradley MN Castrillo A Bruhn KW Mak PA Pei L Hogenesch J O'connell RM Cheng G Saez E Miller JF Tontonoz P 《Cell》2004,119(2):299-309
The liver X receptors (LXRs) are nuclear receptors with established roles in the regulation of lipid metabolism. We now show that LXR signaling not only regulates macrophage cholesterol metabolism but also impacts antimicrobial responses. Mice lacking LXRs are highly susceptible to infection with the intracellular bacteria Listeria monocytogenes (LM). Bone marrow transplant studies point to altered macrophage function as the major determinant of susceptibility. LXR-null macrophages undergo accelerated apoptosis when challenged with LM and exhibit defective bacterial clearance in vivo. These defects result, at least in part, from loss of regulation of the antiapoptotic factor SPalpha, a direct target for regulation by LXRalpha. Expression of LXRalpha or SPalpha in macrophages inhibits apoptosis in the setting of LM infection. Our results demonstrate that LXR-dependent gene expression plays an unexpected role in innate immunity and suggest that common nuclear receptor pathways mediate macrophage responses to modified lipoproteins and intracellular pathogens. 相似文献
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Intracellular water motion decreases in apoptotic macrophages after caspase activation 总被引:1,自引:0,他引:1
Hortelano S García-Martín ML Cerdán S Castrillo A Alvarez AM Boscá L 《Cell death and differentiation》2001,8(10):1022-1028
Triggering of the macrophage cell line RAW 264.7 with lipopolysaccharide and interferon-gamma promoted apoptosis that was prevented by inhibitors of type 2 nitric oxide synthase or caspase. Using (1)H NMR analysis, we have investigated the changes of the intracellular transverse relaxation time (T(2)) and apparent diffusion coefficient (ADC) as parameters reflecting the rotational and translational motions of water in apoptotic macrophages. T(2) values decreased significantly from 287 to 182 ms in cells treated for 18 h with NO-donors. These changes of T(2) were prevented by caspase inhibitors and were not due to mitochondrial depolarization or microtubule depolymerization. The decrease of the intracellular values of T(2) and ADC in apoptotic macrophages was observed after caspase activation, but preceded phosphatidylserine exposure and nucleosomal DNA cleavage. The changes of water motion were accompanied by an enhancement of the hydrophobic properties of the intracellular milieu, as detected by fluorescent probes. These results indicate the occurrence of an alteration in the physicochemical properties of intracellular water during the course of apoptosis. 相似文献
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Hortelano S Zeini M Castrillo A Alvarez AM Boscá L 《Cell death and differentiation》2002,9(6):643-650
Apoptosis occurs through a sequence of specific biochemical and morphological alterations that define the progress of cell death. The changes of the mitochondrial inner membrane potential (DeltaPsi(m)), the release of cytochrome c to the cytosol, the apoptotic volume decrease (AVD) and the activation of caspases have been measured in RAW 264.7, HeLa and Jurkat T cells incubated with molecules that induce apoptosis through the mitochondrial pathway. Our data show that NO, staurosporine, etoposide and camptothecin increased DeltaPsi(m) in macrophages but not in HeLa and Jurkat cells, that exhibited a DeltaPsi(m) decrease. Moreover, the apoptosis induced by NO in macrophages, but not that promoted by staurosporine, might occur in the absence of AVD. Analysis of the sequence of apoptotic manifestations shows that DeltaPsi(m) precedes AVD and caspase activation in RAW 264.7 cells. Inhibition of AVD abrogates apoptosis in HeLa and Jurkat T cells regardless of the stimuli used. These data suggest that the changes of DeltaPsi(m) are cell-type dependent and that AVD is dispensable for apoptosis in macrophages. 相似文献
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Detection and quantification of Entomophaga maimaiga resting spores in forest soil using real-time PCR 总被引:2,自引:0,他引:2
Louela A. Castrillo Lene Thomsen Punita Juneja Ann E. Hajek 《Mycological Research》2007,111(3):324-331
Environmental sampling to monitor entomopathogen titre in forest soil, a known reservoir of insect pathogens such as fungi and viruses, is important in the evaluation of conditions that could trigger epizootics and in the development of strategies for insect pest management. Molecular or PCR-based analysis of environmental samples provides a sensitive method for strain- or species-based detection, and real-time PCR, in particular, allows quantification of the organism of interest. In this study we developed a DNA extraction method and a real-time PCR assay for detection and quantification of Entomophaga maimaiga (Zygomycetes: Entomophthorales), a fungal pathogen of the gypsy moth, in the organic layer of forest soil. DNA from fungal resting spores (azygospores) in soil was extracted using a detergent and bead mill homogenization treatment followed by purification of the crude DNA extract using Sephadex–polyvinylpolypyrrolidone microcolumns. The purification step eliminated most of the environmental contaminants commonly co-extracted with genomic DNA from soil samples but detection assays still required the addition of bovine serum albumin to relieve PCR inhibition. The real-time PCR assay used primers and probe based on sequence analysis of the nuclear ribosomal ITS region of several E. maimaiga and two E. aulicae strains. Comparison of threshold cycle values from different soil samples spiked with E. maimaiga DNA showed that soil background DNA and remaining co-extracted contaminants are critical factors determining detection sensitivity. Based on our results from comparisons of resting spore titres among different forest soils, estimates were best for organic soils with comparatively high densities of resting spores. 相似文献
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R Fernandez-Alonso M Martin-Lopez L Gonzalez-Cano S Garcia F Castrillo I Diez-Prieto A Fernandez-Corona M E Lorenzo-Marcos X Li L Claesson-Welsh M M Marques M C Marin 《Cell death and differentiation》2015,22(8):1287-1299
Vasculogenesis, the establishment of the vascular plexus and angiogenesis, branching of new vessels from the preexisting vasculature, involves coordinated endothelial differentiation, proliferation and migration. Disturbances in these coordinated processes may accompany diseases such as cancer. We hypothesized that the p53 family member p73, which regulates cell differentiation in several contexts, may be important in vascular development. We demonstrate that p73 deficiency perturbed vascular development in the mouse retina, decreasing vascular branching, density and stability. Furthermore, p73 deficiency could affect non endothelial cells (ECs) resulting in reduced in vivo proangiogenic milieu. Moreover, p73 functional inhibition, as well as p73 deficiency, hindered vessel sprouting, tubulogenesis and the assembly of vascular structures in mouse embryonic stem cell and induced pluripotent stem cell cultures. Therefore, p73 is necessary for EC biology and vasculogenesis and, in particular, that DNp73 regulates EC migration and tube formation capacity by regulation of expression of pro-angiogenic factors such as transforming growth factor-β and vascular endothelial growth factors. DNp73 expression is upregulated in the tumor environment, resulting in enhanced angiogenic potential of B16-F10 melanoma cells. Our results demonstrate, by the first time, that differential p73-isoform regulation is necessary for physiological vasculogenesis and angiogenesis and DNp73 overexpression becomes a positive advantage for tumor progression due to its pro-angiogenic capacity.Vascular system formation is one of the earliest events during organogenesis.1 The original vascular plexus is established by vasculogenesis, through differentiation and assembly of mesodermal precursors.2 The angiogenesis process allows the formation of new blood vessels from the existing vasculature and is perturbed in many diseases, including cancer.3 Although efforts have been made to identify factors that control vascular development, the understanding of the molecular networks remains incomplete.The formation of new capillaries and the remodeling of preexisting blood vessels is linked by signal transduction pathways.4 The members of the p53 family (p53, p73 and p63) coordinate cell proliferation, migration and differentiation, and could act as regulators of vascular development. TP73 function in angiogenesis is quite controversial,5, 6, 7 and it has never been addressed using developmental models.TP73 has a dual nature that resides in the existence of TA and DNp73 variants. TAp73 is capable of transactivating p53 targets8, 9, 10 whereas DNp73 can act as p53 and TAp73 repressor.11, 12, 13
TP73 final outcome will depend upon the differential expression of the TA/DNp73 isoforms in each cellular context, as they can execute synergic, as well as antagonist, functions.TP73 role during development is emphasized by the p73-knockout mice (Trp73−/−, p73KO from now on) multiple growth defects.14 These mice, which lack all p73 isoforms, exhibit gastrointestinal and cranial hemorrhages,14 suggestive of vascular fragility. Furthermore, TAp73 directly regulates GATA-1,8 which is essential for endothelial and hematopoietic differentiation.15, 16 This compounded information led us to hypothesize that p73 could be implicated in the regulation of vasculogenesis/angiogenesis.Regulation of these processes involves a broad range of signaling molecules essential for vascular growth and stability,17 such as vascular endothelial growth factor (VEGF)18 and transforming growth factor-β (TGF-β).19 TGF-β operates as a rheostat that controls endothelial cell (EC) differentiation, having an inhibitory effect on EC migration and proliferation by the TGF-β/TGFRI (ALK5)/Smad2/3 pathway, while the TβRII–ALK5/ALK1 complex activates Smad1/5/8, ID1 expression and a pro-angiogenic state.20, 21, 22Regulation of the TGF-β and VEGF pathways by p53 family members has been documented.23, 24 However, p73''s function in these pathways during development remains largely unexplored. In this work, we have used mouse embryonic stem cells (mESC) and induced pluripotent stem cells (iPSCs) as models that recapitulate early vascular morphogenesis.25, 26, 27 ESC and iPSC form multi-cellular aggregates (embryoid bodies, EBs) that, under appropriate conditions, generate functional EC.28 mESC and iPSC differentiation capacity into ECs has been fully addressed.29, 30 We have also performed retinal vascularization analysis to assess vascular processes in vivo.31, 32We demonstrate that p73 deficiency perturbs density and stability of mouse retinal development by affecting VEGF and TGF-β signaling. Furthermore, p73 is necessary for the assembly of vascular structures under physiological conditions in mESC and iPSC. Moreover, DNp73 positively affects angiogenesis through regulation of the TGF-β pathway in human umbilical vein cells (HUVEC) and DNp73-overexpression results in enhanced angiogenic potential of B16-F10 melanoma cells. 相似文献