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Characterization of a dual BET/HDAC inhibitor for treatment of pancreatic ductal adenocarcinoma
(2020)
Pancreatic ductal adenocarcinoma (PDAC) is resistant to virtually all chemo‐ and targeted therapeutic approaches. Epigenetic regulators represent a novel class of drug targets. Among them, BET and HDAC proteins are central regulators of chromatin structure and transcription, and preclinical evidence suggests effectiveness of combined BET and HDAC inhibition in PDAC. Here, we describe that TW9, a newly generated adduct of the BET inhibitor (+)‐JQ1 and class I HDAC inhibitor CI994, is a potent dual inhibitor simultaneously targeting BET and HDAC proteins. TW9 has a similar affinity to BRD4 bromodomains as (+)‐JQ1 and shares a conserved binding mode, but is significantly more active in inhibiting HDAC1 compared to the parental HDAC inhibitor CI994. TW9 was more potent in inhibiting tumor cell proliferation compared to (+)‐JQ1, CI994 alone or combined treatment of both inhibitors. Sequential administration of gemcitabine and TW9 showed additional synergistic antitumor effects. Microarray analysis revealed that dysregulation of a FOSL1‐directed transcriptional program contributed to the antitumor effects of TW9. Our results demonstrate the potential of a dual chromatin‐targeting strategy in the treatment of PDAC and provide a rationale for further development of multitarget inhibitors.
Die in ultra-relativistischen Schwerionenkollisionen erreichten Dichten und Temperaturen führen möglicherweise zu einem Übergang der hochangeregten Kernmaterie in eine partonische Phase ohne Einschluß der Quarks und Gluonen. Dieser Zustand wird Quark-Gluon- Plasma genannt. Die Existenz dieses Plasmas vor einem Phasenübergang in ein Hadrongas versucht man in einer Reihe von Experimenten unter anderem an den Kernforschungszentren CERN in Genf/Schweiz und Brookhaven National Laboratory (BNL) auf Long Island/USA nachzuweisen. Aufgrund theoretischer Modelle wird erwartet, daß Signaturen eines solchen Zustandes das Verhältnis der Pion- zu Baryonen-Produktion und die Produktion von Teilchen, die Strange-Quarks enthalten, sein könnten. Nach diesen Signalen sucht man im hadronischen Endzustand des Systems. Das Fixed-Target-Experiment NA49 untersucht Blei-Blei Kollisionen bei einer Strahlenergie von 158 GeV/c pro Nukleon. Das Experiment zeichnet sich durch seine große Detektorakzeptanz für geladene Teilchen verbunden mit einer präzisen Impulsmessung aus. Ähnliche Merkmale weist auch das momentan im Aufbau befindliche Collider-Experiment STAR am BNL auf. Hier sollen ab 1999 Kollisionen von Gold Kernen bei Energien von 100 GeV/c pro Nukleon analysiert werden. Die hohe Akzeptanz und die gute Impulsbestimmung der produzierten Teilchen zeichnen die Experimente als hervorragende Meßinstrumente für den hadronischen Endzustand aus. Andere Observablen, von denen man sich Aufschluß über die Reaktionsdynamik einer ultra-relativistischen Schwerionenkollisionen erhofft, sind Vektormesonen, die kurz nach oder sogar noch im Reaktionsvolumen der Kollision in ein Lepton-Paar zerfallen. Der Vorteil hierbei ist, daß die Zerfallsteilchen (Elektronen oder Myonen) mit anderen Teilchen nur elektromagnetisch wechselwirken. Deswegen können sie ohne Wechselwirkung mit den umgebenden Hadronen die Reaktionszone verlassen. Die Wahrscheinlichkeit für den Zerfall in Leptonen ist allerdings 10 exp (-4) mal niedriger als für den in Hadronen. Im NA49-Experiment, das auf die Erfassung des hadronischen Endzustandes optimiert ist, ist es aufgrund des hohen Untergrundes an Hadronen nicht trivial, die Lepton-Paare aus dem Zerfall von Vektormesonen zu selektieren. Das Ziel dieser Arbeit bestand darin, zu untersuchen, wie gut eine Identifikation von Elektronen bzw. Positronen im NA-49-Experiment möglich ist. Es konnte die Effizienz der Selektion von Elektron-Positron-Paaren aus dem Zerfall von Phi-Mesonen abgeschätzt und die Kontamination der Lepton-Kandidaten durch Hadronen ermittelt werden. Danach wurde ein Signal zu Untergrund-Verhältnis für das Signal des Phi-Mesons im Invariante-Masse-Spektrum abgeschätzt. Aus den mit dem NA- Experiment gewonnenen Erkenntnissen konnten Vorschläge zur Optimierung der Messung von Lepton-Paaren aus Vektormesonen im zukünftigen STAR-Experiment gemacht werden.
In this thesis the anti-proton to proton ratio in 197Au + 197Au collisions, measured at mid-rapidity, at a center of mass energy of psNN = 200GeV is reported. The value was measured to be ¹p/p = 0.81+-0.002stat +- 0.05syst: in the 5% most central collisions. The ratio shows no dependence on rapidity in the range jyj < 0:5. Furthermore, a dependence on transverse momentum within 0:4< p? < 1:0 GeV/c is not observed. At higher p?, a slight drop in the ratio is observed. In the present analysis, the highest momentum considered is p? = 4:5 GeV/c yielding ¹p=p = 0:645§0:005stat: §0:10syst:. However, the systematic error is higher in this momentum range. A slight centrality dependence was observed, where a decrease from ¹p=p = 0:83§0:002stat:§0:05syst: for most peripheral collisions (less than 80% central) to ¹p=p = 0:78§0:002stat:§0:05syst: for the 5% most central collisions was measured. An estimate of the feed-down contributions fromthe decay of heavier strange baryons results in ¹p=p = 0:77 § 0:05syst:. The measured ratio indicates a » 12:5 times higher value compared to the highest SPS energy of psNN = 17:3 and an \almost net-baryon free" region, at mid- rapidity. The asymmetry of protons and anti-protons may be explained by the contribution ofvalence quarks in a nucleus break-up picture. In such a scenario, the absolute value of the ratio and the fact that the ratio does not depend on rapidity (at mid-rapidity) is well reproduced. Fragmentation of quarks and anti- quarks into protons and anti-protons is assumed. An estimate of the ratio, when feed-down correction is taken into consideration, agrees well with the prediction of a statistical model analysis at a temperature of T = 177 § 7 MeV and a baryon chemical potential of ¹B = 29 § 8 MeV. The temperature achieved is only slightly higher when compared to the top SPS energy, while the baryochemical potential is factor »10 lower. As in the case of the SPS results, these parameters are close to the phase boundary of Figure 1.6. The measurement of the ratio at high transverse momentum was of special in- terest in this analysis, since at RHIC energies, the cross section for hadrons at high transverse momentum is increased with respect to SPS energies. The weak dependence of the ratio on the transverse momentum is well described by the non- perturbative quenched and baryon junction scenario (i.e. Soft+Quench model), where baryon creation is enhanced by baryon junctions. In comparison the ratio does not decrease within the considered momentum range as predicted by pQCD.
Background: About 30 million people in the EU and USA, respectively, suffer from a rare disease. Driven by European legislative requirements, national strategies for the improvement of care in rare diseases are being developed. To improve timely and correct diagnosis for patients with rare diseases, the development of a registry for undiagnosed patients was recommended by the German National Action Plan. In this paper we focus on the question on how such a registry for undiagnosed patients can be built and which information it should contain. Results: To develop a registry for undiagnosed patients, a software for data acquisition and storage, an appropriate data set and an applicable terminology/classification system for the data collected are needed. We have used the open-source software Open-Source Registry System for Rare Diseases (OSSE) to build the registry for undiagnosed patients. Our data set is based on the minimal data set for rare disease patient registries recommended by the European Rare Disease Registries Platform. We extended this Common Data Set to also include symptoms, clinical findings and other diagnoses. In order to ensure findability, comparability and statistical analysis, symptoms, clinical findings and diagnoses have to be encoded. We evaluated three medical ontologies (SNOMED CT, HPO and LOINC) for their usefulness. With exact matches of 98% of tested medical terms, a mean number of five deposited synonyms, SNOMED CT seemed to fit our needs best. HPO and LOINC provided 73% and 31% of exacts matches of clinical terms respectively. Allowing more generic codes for a defined symptom, with SNOMED CT 99%, with HPO 89% and with LOINC 39% of terms could be encoded. Conclusions: With the use of the OSSE software and a data set, which, in addition to the Common Data Set, focuses on symptoms and clinical findings, a functioning and meaningful registry for undiagnosed patients can be implemented. The next step is the implementation of the registry in centres for rare diseases. With the help of medical informatics and big data analysis, case similarity analyses could be realized and aid as a decision-support tool enabling diagnosis of some undiagnosed patients.
We report results on the ratio of midrapidity antiproton-to-proton yields in Au+Au collisions at sqrt[sNN] = 130 GeV per nucleon pair as measured by the STAR experiment at RHIC. Within the rapidity and transverse momentum range of | y|<0.5 and 0.4<pt<1.0 GeV/c, the ratio is essentially independent of either transverse momentum or rapidity, with an average of 0.65±0.01(stat)±0.07(syst) for minimum bias collisions. Within errors, no strong centrality dependence is observed. The results indicate that at this RHIC energy, although the p-p-bar pair production becomes important at midrapidity, a significant excess of baryons over antibaryons is still present.
The first measurements of light antinucleus production in Au+Au collisions at the Relativistic Heavy-Ion Collider are reported. The observed production rates for d-bar and 3He-bar are much larger than in lower energy nucleus-nucleus collisions. A coalescence model analysis of the yields indicates that there is little or no increase in the antinucleon freeze-out volume compared to collisions at CERN SPS energy. These analyses also indicate that the 3He-bar freeze-out volume is smaller than the d-bar freeze-out volume.
We present the first measurement of midrapidity vector meson phi production in Au+Au collisions at RHIC (sqrt[sNN]=130 GeV) from the STAR detector. For the 11% highest multiplicity collisions, the slope parameter from an exponential fit to the transverse mass distribution is T=379±50(stat)±45(syst) MeV, the yield dN/dy=5.73±0.37(stat)±0.69(syst) per event, and the ratio N phi /Nh- is found to be 0.021±0.001(stat)±0.004(syst). The measured ratio N phi /Nh- and T for the phi meson at midrapidity do not change for the selected multiplicity bins.
We report the first measurement of inclusive antiproton production at midrapidity in Au+Au collisions at sqrt[sNN] = 130 GeV by the STAR experiment at RHIC. The antiproton transverse mass distributions in the measured transverse momentum range of 0.25<pperp<0.95 GeV/c are found to fall less steeply for more central collisions. The extrapolated antiproton rapidity density is found to scale approximately with the negative hadron multiplicity density.
The STAR Collaboration reports the first observation of exclusive rho 0 photoproduction, AuAu-->AuAu rho 0, and rho 0 production accompanied by mutual nuclear Coulomb excitation, AuAu-->Au [star] Au [star] rho 0, in ultraperipheral heavy-ion collisions. The rho 0 have low transverse momenta, consistent with coherent coupling to both nuclei. The cross sections at sqrt[sNN]=130 GeV agree with theoretical predictions treating rho 0 production and Coulomb excitation as independent processes.
The minimum-bias multiplicity distribution and the transverse momentum and pseudorapidity distributions for central collisions have been measured for negative hadrons ( h-) in Au+Au interactions at sqrt[sNN] = 130 GeV. The multiplicity density at midrapidity for the 5% most central interactions is dNh-/d eta | eta = 0 = 280±1(stat)±20(syst), an increase per participant of 38% relative to pp-bar collisions at the same energy. The mean transverse momentum is 0.508±0.012 GeV/c and is larger than in central Pb+Pb collisions at lower energies. The scaling of the h- yield per participant is a strong function of pperp. The pseudorapidity distribution is almost constant within | eta |<1.
We report first results on elliptic flow of identified particles at midrapidity in Au+Au collisions at sqrt[sNN] = 130 GeV using the STAR TPC at RHIC. The elliptic flow as a function of transverse momentum and centrality differs significantly for particles of different masses. This dependence can be accounted for in hydrodynamic models, indicating that the system created shows a behavior consistent with collective hydrodynamical flow. The fit to the data with a simple model gives information on the temperature and flow velocities at freeze-out.
Two-pion correlation functions in Au+Au collisions at sqrt[sNN] = 130 GeV have been measured by the STAR (solenoidal tracker at RHIC) detector. The source size extracted by fitting the correlations grows with event multiplicity and decreases with transverse momentum. Anomalously large sizes or emission durations, which have been suggested as signals of quark-gluon plasma formation and rehadronization, are not observed. The Hanbury Brown-Twiss parameters display a weak energy dependence over a broad range in sqrt[sNN].
We report the first observation of K*(892)0--> pi K in relativistic heavy ion collisions. The transverse momentum spectrum of (K*0+K*0)/2 from central Au+Au collisions at sqrt[sNN]=130 GeV is presented. The ratios of the K*0 yield derived from these data to the yields of negative hadrons, charged kaons, and phi mesons have been measured in central and minimum bias collisions and compared with model predictions and comparable e+e-, pp, and p-barp results. The data indicate no dramatic reduction of K*0 production in relativistic heavy ion collisions despite expected losses due to rescattering effects.
Elliptic flow holds much promise for studying the early-time thermalization attained in ultrarelativistic nuclear collisions. Flow measurements also provide a means of distinguishing between hydrodynamic models and calculations which approach the low density (dilute gas) limit. Among the effects that can complicate the interpretation of elliptic flow measurements are azimuthal correlations that are unrelated to the reaction plane (nonflow correlations). Using data for Au + Au collisions at sqrt[sNN]=130 GeV from the STAR time projection chamber, it is found that four-particle correlation analyses can reliably separate flow and nonflow correlation signals. The latter account for on average about 15% of the observed second-harmonic azimuthal correlation, with the largest relative contribution for the most peripheral and the most central collisions. The results are also corrected for the effect of flow variations within centrality bins. This effect is negligible for all but the most central bin, where the correction to the elliptic flow is about a factor of 2. A simple new method for two-particle flow analysis based on scalar products is described. An analysis based on the distribution of the magnitude of the flow vector is also described.
We report STAR results on the azimuthal anisotropy parameter v2 for strange particles K0S, Lambda , and Lambda -bar at midrapidity in Au+Au collisions at sqrt[sNN]=130 GeV at the Relativistic Heavy Ion Collider. The value of v2 as a function of transverse momentum, pt, of the produced particle and collision centrality is presented for both particles up to pt~3.0 GeV/c. A strong pt dependence in v2 is observed up to 2.0 GeV/c. The v2 measurement is compared with hydrodynamic model calculations. The physics implications of the pt integrated v2 magnitude as a function of particle mass are also discussed.
Azimuthal anisotropy (v2) and two-particle angular correlations of high pT charged hadrons have been measured in Au+Au collisions at sqrt[sNN]=130 GeV for transverse momenta up to 6 GeV/c, where hard processes are expected to contribute significantly. The two-particle angular correlations exhibit elliptic flow and a structure suggestive of fragmentation of high pT partons. The monotonic rise of v2(pT) for pT<2 GeV/c is consistent with collective hydrodynamical flow calculations. At pT>3 GeV/c, a saturation of v2 is observed which persists up to pT=6 GeV/c.
Inclusive transverse momentum distributions of charged hadrons within 0.2<pT<6.0 GeV/c have been measured over a broad range of centrality for Au+Au collisions at sqrt[sNN]=130 GeV. Hadron yields are suppressed at high pT in central collisions relative to peripheral collisions and to a nucleon-nucleon reference scaled for collision geometry. Peripheral collisions are not suppressed relative to the nucleon-nucleon reference. The suppression varies continuously at intermediate centralities. The results indicate significant nuclear medium effects on high-pT hadron production in heavy-ion collisions at high energy.
We report the first measurement of strange ( Lambda ) and antistrange ( Lambda -bar) baryon production from sqrt[sNN]=130 GeV Au+Au collisions at the Relativistic Heavy Ion Collider (RHIC). Rapidity density and transverse mass distributions at midrapidity are presented as a function of centrality. The yield of Lambda and Lambda -bar hyperons is found to be approximately proportional to the number of negative hadrons. The production of Lambda -bar hyperons relative to negative hadrons increases very rapidly with transverse momentum. The magnitude of the increase cannot be described by existing hadronic string fragmentation models alone.
Azimuthal anisotropy (v2) and two-particle angular correlations of high pT charged hadrons have been measured in Au+Au collisions at sqrt[sNN]=130 GeV for transverse momenta up to 6 GeV/c, where hard processes are expected to contribute significantly. The two-particle angular correlations exhibit elliptic flow and a structure suggestive of fragmentation of high pT partons. The monotonic rise of v2(pT) for pT<2 GeV/c is consistent with collective hydrodynamical flow calculations. At pT>3 GeV/c, a saturation of v2 is observed which persists up to pT=6 GeV/c.