Iron availability for erythropoiesis and its dysregulation in β-thalassemia are incompletely understood. We previously demonstrated that exogenous apotransferrin leads to more effective ...erythropoiesis, decreasing erythroferrone (ERFE) and derepressing hepcidin in β-thalassemic mice. Transferrin-bound iron binding to transferrin receptor 1 (TfR1) is essential for cellular iron delivery during erythropoiesis. We hypothesize that apotransferrin's effect is mediated via decreased TfR1 expression and evaluate TfR1 expression in β-thalassemic mice in vivo and in vitro with and without added apotransferrin. Our findings demonstrate that β-thalassemic erythroid precursors overexpress TfR1, an effect that can be reversed by the administration of exogenous apotransferrin. In vitro experiments demonstrate that apotransferrin inhibits TfR1 expression independent of erythropoietin- and iron-related signaling, decreases TfR1 partitioning to reticulocytes during enucleation, and enhances enucleation of defective β-thalassemic erythroid precursors. These findings strongly suggest that overexpressed TfR1 may play a regulatory role contributing to iron overload and anemia in β-thalassemic mice. To evaluate further, we crossed TfR1+/− mice, themselves exhibiting iron-restricted erythropoiesis with increased hepcidin, with β-thalassemic mice. Resultant double-heterozygote mice demonstrate long-term improvement in ineffective erythropoiesis, hepcidin derepression, and increased erythroid enucleation in relation to β-thalassemic mice. Our data demonstrate for the first time that TfR1+/− haploinsufficiency reverses iron overload specifically in β-thalassemic erythroid precursors. Taken together, decreasing TfR1 expression during β-thalassemic erythropoiesis, either directly via induced haploinsufficiency or via exogenous apotransferrin, decreases ineffective erythropoiesis and provides an endogenous mechanism to upregulate hepcidin, leading to sustained iron-restricted erythropoiesis and preventing systemic iron overload in β-thalassemic mice.
•Apotransferrin decreases TfR1 expression and alters TfR1 trafficking to normalize enucleation in β-thalassemic erythroid precursors.•Decreased TfR1 upregulates hepcidin in an iron- and ERFE-independent manner, resulting in iron-restricted β-thalassemic erythropoiesis.
The high excitation energy-transfer efficiency demanded in photosynthetic organisms relies on the optimal pigment-protein binding orientation in the individual protein complexes and also on the ...overall architecture of the photosystem. In green sulfur bacteria, the membrane-attached Fenna-Matthews-Olson (FMO) antenna protein functions as a "wire" to connect the large peripheral chlorosome antenna complex with the reaction center (RC), which is embedded in the cytoplasmic membrane (CM). Energy collected by the chlorosome is funneled through the FMO to the RC. Although there has been considerable effort to understand the relationships between structure and function of the individual isolated complexes, the specific architecture for in vivo interactions of the FMO protein, the CM, and the chlorosome, ensuring highly efficient energy transfer, is still not established experimentally. Here, we describe a mass spectrometrybased method that probes solvent-exposed surfaces of the FMO by labeling solvent-exposed aspartic and glutamic acid residues. The locations and extents of labeling of FMO on the native membrane in comparison with it alone and on a chlorosome-depleted membrane reveal the orientation. The large differences in the modification of certain peptides show that the Bchl a #3 side of the FMO trimer interacts with the CM, which is consistent with recent theoretical predictions. Moreover, the results also provide direct experimental evidence to confirm the overall architecture of the photosystem from Chlorobaculum tepidum (C tepidum) and give information on the packing of the FMO protein in its native environment.
Implied Volatility Functions: Empirical Tests Dumas, Bernard; Fleming, Jeff; Whaley, Robert E.
The Journal of finance (New York),
December 1998, Volume:
53, Issue:
6
Journal Article
Peer reviewed
Open access
Derman and Kani (1994), Dupire (1994), and Rubinstein (1994) hypothesize that asset return volatility is a deterministic function of asset price and time, and develop a deterministic volatility ...function (DVF) option valuation model that has the potential of fitting the observed cross section of option prices exactly. Using S&P 500 options from June 1988 through December 1993, we examine the predictive and hedging performance of the DVF option valuation model and find it is no better than an ad hoc procedure that merely smooths Black-Scholes (1973) implied volatilities across exercise prices and times to expiration.
Murine models have made valuable contributions to our understanding of iron metabolism. Investigation of mice with inherited forms of anemia has led to the discovery of novel proteins involved in ...iron homeostasis. A growing number of murine models are being developed to investigate mitochondrial iron metabolism. Mouse strains are available for the major forms of hereditary hemochromatosis. Findings in murine models support the concept that the pathogenesis of nearly all forms of hereditary hemochromatosis involves inappropriately low expression of hepcidin. The availability of mice with floxed iron-related genes allows the study of the in vivo consequences of cell-selective deletion of these genes.
Intermolecular electronic coupling dictates the optical properties of molecular aggregate systems. Of particular interest are photosynthetic pigment-protein complexes that absorb sunlight then ...efficiently direct energy toward the photosynthetic reaction center. Two-dimensional (2D) ultrafast spectroscopy has been used widely in the infrared (IR) and increasingly in the visible to probe excitonic couplings and observe dynamics, but the off-diagonal spectral signatures of coupling are often obscured by broad diagonal peaks, especially in the visible regime. Rotating the polarizations of the laser pulses exciting the sample can highlight certain spectral features, and the use of polarized pulse sequences to elucidate cross-peaks in 2D spectra has been demonstrated in the IR for vibrational transitions. Here we develop 2D electronic spectroscopy using cross-peak-specific pulse polarization conditions in an investigation of the Fenna-Matthews-Olson light harvesting complex from green photosynthetic bacteria. Our measurements successfully highlight off-diagonal features of the 2D spectra and, in combination with an analysis based on the signs of features arising from particular energy level pathways and theoretical simulation, we characterize the dominant response pathways responsible for the spectral features. Cross-peak-specific 2D electronic spectroscopy provides insight into the interchromophore couplings, as well as into the energetic pathways giving rise to the signal. With femtosecond resolution, we also observe dynamical processes that depend on these couplings and interactions with the protein environment.
Erythropoiesis normally occurs in the bone marrow within the pelvis and femur, and both erythropoiesis and bone metabolism are susceptible to changes in iron homeostasis. Thus, hematopoietic and ...osteoid systems require coordination of iron metabolism during stress or ineffective erythropoiesis. Recently, a more extensive understanding of the crosstalk between iron metabolism and erythropoiesis revealed that a bone marrow secreted protein, erythroferrone (ERFE), is a negative regulator of hepcidin Kautz Nat Gen 2014. Hepcidin in turn is the main negative regulator of iron absorption and recycling Nemeth Science 2004 and its suppression enables an increase in iron availability during stress erythropoiesis. Diseases of ineffective erythropoiesis, such as β-thalassemia, with chronic erythroid expansion, are associated with thinning of cortical bone, leading to decreased bone mineral density Haidar Bone 2011; Vogiatzi Bone 2006. Mechanisms underlying coordination of erythropoiesis and bone metabolism are incompletely understood. However, because ERFE functions to suppress hepcidin by sequestering BMPs Arezes Blood 2018, and because BMPs are crucially important for bone metabolism Hogan Genes Dev 1996, we hypothesize that ERFE may be involved in coordinating iron metabolism, erythropoiesis, and bone homeostasis. Lastly, osteoblast expression of TfR2 was found to inhibit bone formation by activating BMP-p38MAPK signaling and expression of the Wnt inhibitor Sclerostin, protein product of the SOST gene Rauner Nat Med 2019. We thus propose to explore the role of ERFE in disordered bone metabolism in β-thalassemia. In vitro data demonstrates that osteoblasts from wild type (WT) mice express ERFE and this expression is enhanced by BMP2/6/7 (Figure 1a and 1b). Furthermore, osteoblasts from ERFE-/- mice exhibit enhanced bone mineralization (6.8-fold increased von Kossa staining, measured by image J) (Figure 1c), increased expression of osteoblast-specific markers (e.g. osterix (OSX))(Figure 1d), and higher SOST expression (Figure 1e) relative to WT osteoblasts. We anticipate that if TfR2 is central to bone metabolism, ERFE-/- osteoblasts may exhibit a decrease in TfR2; our results demonstrate only a trend toward decreased TfR2 in ERFE-/- osteoblasts (Figure 1f). In addition, we propose that ERFE is a negative regulator of osteoblast activity, predicting that ERFE loss in th3/+ mice would enhance bone mineral density. To this end, we analyzed bone mineral density and histomorphometry in WT, ERFE-/-, th3/+, and th3/+ERFE-/- mice. Surprisingly, although no differences are evident between WT, ERFE-/-, and th3/+ femora, th3/+ERFE-/- mice exhibit a decrease in bone mineral density and bone volume / total volume (BV/TV) (Figure 2a-2b) with a trend toward enhanced femoral mineral apposition rate (Figure 2c) relative to th3/+ mice. These results indicate enhanced osteoblast activity without increased bone formation. Because bone mineralization is a composite of the relative osteoblast and osteoclast activity, we hypothesize that osteoclast activity is further enhanced in th3/+ ERFE-/- mice. TRAP staining demonstrates a significantly increased number of osteoclasts in ERFE-/- relative to WT as well as th3/+ ERFE-/- relative to th3/+ femora (Figure 2d). Our studies demonstrate that ERFE, like other members of the TNFα superfamily Lu J Bone Miner Res 2011, negatively regulates OSX which is critical for osteoblast function (Figure 3a). Thus, suppression of ERFE results in more OSX (Figure 1d), enhanced mineralization (Figure 1c), and higher SOST expression (Figure 1e) which results in the secretion of Sclerostin (Figure 3b). Sclerostin both feeds back to suppress Wnt signaling to decrease osteoblast function and increases RANKL production to stimulate osteoclast differentiation (Figure 3b). Taken together, ERFE functions as a negative regulator of both osteoblast and especially osteoclast activity such that its loss leads to more osteoclast activity and results in decreased bone mineral density in β-thalassemia. These findings provide novel insights into the complex interplay between regulation of iron metabolism and bone homeostasis in diseases of dysregulated erythropoiesis, when ERFE expression is increased, and support the rationale to further explore the role of ERFE and TfR2 in this crosstalk in β-thalassemia.
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Fleming:Protagonist: Membership on an entity's Board of Directors or advisory committees; Silence Therapeutics: Consultancy; Ultragenyx: Consultancy. Rivella:Disc medicine, Protagonist, LIPC, Meira GTx: Consultancy; Meira GTx, Ionis Pharmaceutical: Membership on an entity's Board of Directors or advisory committees. Ginzburg:La Jolla Pharma: Membership on an entity's Board of Directors or advisory committees.
Photosynthetic light-harvesting proceeds by the collection and highly efficient transfer of energy through a network of pigment-protein complexes. Interchromophore electronic couplings and ...interactions between pigments and the surrounding protein determine energy levels of excitonic states, and dictate the mechanism of energy flow. The excitonic structure (orientation of excitonic transition dipoles) of pigment-protein complexes is generally deduced indirectly from x-ray crystallography, in combination with predictions of transition energies and couplings in the chromophore site basis. We demonstrate that coarse-grained, excitonic, structural information in the form of projection angles between transition dipole moments can be obtained from the polarization-dependent, two-dimensional electronic spectroscopy of an isotropic sample, particularly when the nonrephasing or free polarization decay signal, rather than the photon echo signal, is considered. This method provides an experimental link between atomic and electronic structure, and accesses dynamical information with femtosecond time resolution. In an investigation of the Fenna-Matthews-Olson complex from green sulfur bacteria, the energy transfer connecting two particular exciton states in the protein was isolated as the primary contributor to a crosspeak in the nonrephasing two-dimensional spectrum at 400
femtoseconds under a specific sequence of polarized excitation pulses. The results suggest the possibility of designing experiments using combinations of tailored polarization sequences to separate and monitor individual relaxation pathways.
Iron overload results in significant morbidity and mortality in β-thalassemic patients. Insufficient hepcidin is implicated in parenchymal iron overload in β-thalassemia and approaches to increase ...hepcidin have therapeutic potential. We have previously shown that exogenous apo-transferrin markedly ameliorates ineffective erythropoiesis and increases hepcidin expression in Hbb(th1/th1) (thalassemic) mice. We utilize in vivo and in vitro systems to investigate effects of exogenous apo-transferrin on Smad and ERK1/2 signaling, pathways that participate in hepcidin regulation. Our results demonstrate that apo-transferrin increases hepcidin expression in vivo despite decreased circulating and parenchymal iron concentrations and unchanged liver Bmp6 mRNA expression in thalassemic mice. Hepatocytes from apo-transferrin-treated mice demonstrate decreased ERK1/2 pathway and increased serum BMP2 concentration and hepatocyte BMP2 expression. Furthermore, hepatocyte ERK1/2 phosphorylation is enhanced by neutralizing anti-BMP2/4 antibodies and suppressed in vitro in a dose-dependent manner by BMP2, resulting in converse effects on hepcidin expression, and hepatocytes treated with MEK/ERK1/2 inhibitor U0126 in combination with BMP2 exhibit an additive increase in hepcidin expression. Lastly, bone marrow erythroferrone expression is normalized in apo-transferrin treated thalassemic mice but increased in apo-transferrin injected wild-type mice. These findings suggest that increased hepcidin expression after exogenous apo-transferrin is in part independent of erythroferrone and support a model in which apo-transferrin treatment in thalassemic mice increases BMP2 expression in the liver and other organs, decreases hepatocellular ERK1/2 activation, and increases nuclear Smad to increase hepcidin expression in hepatocytes.