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71.
Amino acid restriction is among promising potential cancer treatment strategies. However, cancer cells employ a multitude of mechanisms to mount resistance to amino acid restriction, which impede the latter’s clinical development. Here we show that MAPK signaling activation in asparagine‐restricted melanoma cells impairs GSK3‐β‐mediated c‐MYC degradation. In turn, elevated c‐MYC supports ATF4 translational induction by enhancing the expression of the amino acid transporter SLC7A5, increasing the uptake of essential amino acids, and the subsequent maintenance of mTORC1 activity in asparagine‐restricted melanoma cells. Blocking the MAPK‐c‐MYC‐SLC7A5 signaling axis cooperates with asparagine restriction to effectively suppress melanoma cell proliferation. This work reveals a previously unknown axis of cancer cell adaptation to asparagine restriction and informs mechanisms that may be targeted for enhanced therapeutic efficacy of asparagine limiting strategies. 相似文献
72.
Matthew Bovyn Babu Reddy Janakaloti Narayanareddy Steven Gross Jun Allard 《Molecular biology of the cell》2021,32(9):984
Cellular cargoes, including lipid droplets and mitochondria, are transported along microtubules using molecular motors such as kinesins. Many experimental and computational studies focused on cargoes with rigidly attached motors, in contrast to many biological cargoes that have lipid surfaces that may allow surface mobility of motors. We extend a mechanochemical three-dimensional computational model by adding coupled-viscosity effects to compare different motor arrangements and mobilities. We show that organizational changes can optimize for different objectives: Cargoes with clustered motors are transported efficiently but are slow to bind to microtubules, whereas those with motors dispersed rigidly on their surface bind microtubules quickly but are transported inefficiently. Finally, cargoes with freely diffusing motors have both fast binding and efficient transport, although less efficient than clustered motors. These results suggest that experimentally observed changes in motor organization may be a control point for transport. 相似文献
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Guillaume Allorent Ryutaro Tokutsu Thomas Roach Graham Peers Pierre Cardol Jacqueline Girard-Bascou Daphné Seigneurin-Berny Dimitris Petroutsos Marcel Kuntz Cécile Breyton Fabrice Franck Francis-André Wollman Krishna K. Niyogi Anja Krieger-Liszkay Jun Minagawa Giovanni Finazzi 《The Plant cell》2013,25(2):545-557
Absorption of light in excess of the capacity for photosynthetic electron transport is damaging to photosynthetic organisms. Several mechanisms exist to avoid photodamage, which are collectively referred to as nonphotochemical quenching. This term comprises at least two major processes. State transitions (qT) represent changes in the relative antenna sizes of photosystems II and I. High energy quenching (qE) is the increased thermal dissipation of light energy triggered by lumen acidification. To investigate the respective roles of qE and qT in photoprotection, a mutant (npq4 stt7-9) was generated in Chlamydomonas reinhardtii by crossing the state transition–deficient mutant (stt7-9) with a strain having a largely reduced qE capacity (npq4). The comparative phenotypic analysis of the wild type, single mutants, and double mutants reveals that both state transitions and qE are induced by high light. Moreover, the double mutant exhibits an increased photosensitivity with respect to the single mutants and the wild type. Therefore, we suggest that besides qE, state transitions also play a photoprotective role during high light acclimation of the cells, most likely by decreasing hydrogen peroxide production. These results are discussed in terms of the relative photoprotective benefit related to thermal dissipation of excess light and/or to the physical displacement of antennas from photosystem II. 相似文献
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Chengjian Tu Jun Li Xiaosheng Jiang Lowell G. Sheflin Bruce A. Pfeffer Matthew Behringer Steven J. Fliesler Jun Qu 《Molecular & cellular proteomics : MCP》2013,12(12):3583-3598
Smith-Lemli-Opitz syndrome (SLOS) is one of the most common recessive human disorders and is characterized by multiple congenital malformations as well as neurosensory and cognitive abnormalities. A rat model of SLOS has been developed that exhibits progressive retinal degeneration and visual dysfunction; however, the molecular events underlying the degeneration and dysfunction remain poorly understood. Here, we employed a well-controlled, ion-current-based approach to compare retinas from the SLOS rat model to retinas from age- and sex-matched control rats (n = 5/group). Retinas were subjected to detergent extraction and subsequent precipitation and on-pellet-digestion procedures and then were analyzed on a long, heated column (75 cm, with small particles) with a 7-h gradient. The high analytical reproducibility of the overall proteomics procedure enabled reliable expression profiling. In total, 1,259 unique protein groups, ∼40% of which were membrane proteins, were quantified under highly stringent criteria, including a peptide false discovery rate of 0.4%, with high quality ion-current data (e.g. signal-to-noise ratio ≥ 10) obtained independently from at least two unique peptides for each protein. The ion-current-based strategy showed greater quantitative accuracy and reproducibility over a parallel spectral counting analysis. Statistically significant alterations of 101 proteins were observed; these proteins are implicated in a variety of biological processes, including lipid metabolism, oxidative stress, cell death, proteolysis, visual transduction, and vesicular/membrane transport, consistent with the features of the associated retinal degeneration in the SLOS model. Selected targets were further validated by Western blot analysis and correlative immunohistochemistry. Importantly, although photoreceptor cell death was validated by TUNEL analysis, Western blot and immunohistochemical analyses suggested a caspase-3-independent pathway. In total, these results provide compelling new evidence implicating molecular changes beyond the initial defect in cholesterol biosynthesis in this retinal degeneration model, and they might have broader implications with respect to the pathobiological mechanism underlying SLOS.Smith-Lemli-Opitz syndrome (SLOS)1 is an autosomal recessive disorder associated with subnormal growth and failure to thrive, mental retardation and neurosensory deficits, and multiple congenital anomalies, including dysmorphologies (1, 2). Early epidemiological studies estimated the incidence of SLOS as 1 in 20,000 to 1 in 60,000 live births, primarily among Caucasians (1, 2). However, more recent studies suggest that the SLOS carrier frequency is ∼1 in 30 to 1 in 50; this predicts a much higher actual disease frequency, ranging from 1 in 1,590 to 1 in 17,000 (3, 4), making SLOS the fourth most common autosomal recessive human disease (after cystic fibrosis, phenylketonuria, and hemochromatosis). Mutation of the DHCR7 gene is the intrinsic cause of SLOS; this gene encodes the enzyme DHCR7 (3β-hydroxysterol-Δ7-reductase, a.k.a. 7-dehydrocholesterol reductase; EC1.3.1.21), which catalyzes the final step in the cholesterol biosynthetic pathway, reducing the Δ7 double bond and thus converting 7-dehydrocholesterol (7DHC) to cholesterol (4, 5). As a consequence, markedly reduced levels of cholesterol and aberrantly elevated levels of the cholesterol precursor 7DHC (and its epimer, 8DHC) are observed in the majority of affected SLOS patients (6, 7). Therefore, the clinical suspicion of SLOS is confirmed by elevated 7DHC in plasma or tissues, typically demonstrated via chromatographic methods (e.g. HPLC or GC/MS) (8, 9).Visual capacity may become compromised in SLOS patients because of a variety of congenital or postnatal pathologies, such as cataracts, aniridia, corneal endothelium defects, sclerocornea, electrophysiological defects in the retina, optic nerve abnormalities, or other ophthalmologic problems (10, 11). We currently lack full knowledge of the exact pathobiological mechanism underlying SLOS, but additional insights may be afforded by studies employing a rodent model of the disease in which rats are treated with AY9944 (trans-1,4-bis[2-chlorobenzylaminomethyl] cyclohexane dihydrochloride), a relatively selective inhibitor of DHCR7 (12–14). We previously described progressive retinal degeneration in this rat model of SLOS, which is characterized by the shortening of retinal rod outer segments, pyknosis and thinning of the outer nuclear layer (ONL) of the retina (which contains the photoreceptor nuclei), and accumulation of membranous/lipid inclusions in the retinal pigment epithelium (RPE) (12, 13). Reduced rod outer segment membrane fluidity, primarily caused by a dramatic (30 to 40 mol%) decline in docosahexaenoic acid (22:6, n3) levels relative to age-matched controls, also was observed in the SLOS rat model by three postnatal months (15, 16). Retinal function and sterol steady-state in the same rat model of SLOS can be partially rescued using a high-cholesterol diet (2% by weight), although histological degeneration of the retina still occurs (17). However, the molecular mechanisms that underlie the observed electrophysiological defects in the retina, the accumulation of membranous/lipid inclusions in the RPE, the shortening of retinal rod outer segments, and the initiation of ONL pyknosis in the SLOS rat model remain poorly understood. Therefore, a comprehensive profiling of the retinal proteomes of AY9944-treated versus age-matched untreated control rats may contribute to further understanding of the underlying mechanisms responsible for the retinopathy associated with the SLOS model and, by extension, the human disease.Nevertheless, extensive and reliable expression profiling of the retinal proteome remains a prominent challenge, owing to the need to quantify data from multiple animals and a high percentage of integral membrane and membrane-associated proteins (18, 19). Label-free approaches can compare multiple replicates (20–22) with quantitative accuracy comparable to that attained with stable isotope-labeling methods (23–25). However, in order to achieve reliable relative quantification, highly quantitative and reproducible sample preparation and LC/MS analysis are required for relatively large-scale sample cohorts.In the present study, we performed a reproducible, well-controlled, ion-current-based comparative proteomic analysis of the retinas from AY9944-treated versus age/sex-matched control rats (n = 5 animals per group). A high-concentration detergent mixture was used for the efficient extraction of proteins from retinas, and samples then underwent a reproducible precipitation/on-pellet-digestion procedure and long-column, 7-h nano-LC-MS analysis. These approaches ensured extensive comparative analysis of retina samples with 10 animals. The preparative and analytical procedures were carefully optimized and controlled to ensure optimal reproducibility. Two label-free approaches, the ion-current-based method and a spectral counting method, were compared in parallel. The altered proteins were subjected to functional annotation, and selected groups of proteins of interest were further validated by means of Western blot and correlative immunohistochemical analysis. 相似文献
78.
Lectin from crude extract of small black kidney bean (Phaseolus vulgaris) was successfully extracted using the reversed micellar extraction (RME). The effects of water content of organic phase (Wo), ionic strength, pH, Aerosol-OT (AOT) concentration and extraction time on the forward extraction and the pH and ionic strength in the backward extraction were studied to optimize the extraction efficiency and purification factor. Forward extraction of lectin was found to be maximum after 15 min of contact using 50 mM AOT in organic phase with Wo 27 and 10 mM citrate-phosphate buffer at pH 5.5 containing 100 mM NaCl in the aqueous phase. Lectin was backward extracted into a fresh aqueous phase using sodium-phosphate buffer (10 mM, pH 7.0) containing 500 mM KCl. The overall yield of the process was 53.28% for protein recovery and 8.2-fold for purification factor. The efficiency of the process was confirmed by gel electrophoresis analysis. 相似文献
79.
Yuan Yuan Zhang Jun Hong Liu Yuan ming Zhou Yu Yan Zhang Ying Liu Ting Yun Gong Jing Wang 《Process Biochemistry》2013,48(8):1119-1125
A new two-phase kinetic model of sporulation of Clonostachys rosea in a new solid-state fermentation (SSF) reactor was proposed. The model including exponential and logistic models was applied to study the simultaneous effect of temperature, initial moisture content, medium thickness and surface porosity of the plastic membrane on C. rosea sporulation. The model fits experimental data very well and allows accurate predictions of spore production. The maximum spore production achieved 3.360 × 1010 (spores/gDM), about 10 times greater than that in traditional SSF reactor(data not shown). The new reactor can provide two times sporulation surface area. Moisture content can be adjusted by changing the surface porosity to meet the spore production. Two mixings carried out during fermentation makes medium loose and results in a mass of new sporulation surface area. Therefore, the new SSF reactor would have great potential for application in bulk spore production of fungal biocontrol agents. 相似文献
80.