Isoform-spezifische Analyse der PI3-Kinase (Klasse I) im Multiplen Myelom / Isoform-specific analysis of the PI3-kinase (class I) in multiple myeloma

Ok [geb. Hofmann], Claudia Barbara

January 2014

Das Multiple Myelom (MM) ist eine unheilbare Erkrankung, die aus einer klonalen Proliferation maligner Plasmazellen im Knochenmark hervorgeht. Dabei liegt ein komplexes Signalnetzwerk vor, das zum Überleben und Wachstum der MM-Zellen führt. Das MM ist durch eine enorme genetische und phänotypische Heterogenität gekennzeichnet. Die konstitutive Aktivierung des PI3K/Akt-Signalwegs spielt bei ungefähr der Hälfte der Patienten mit MM eine wichtige Rolle für das Überleben der MM-Zellen und ist daher ein potentieller therapeutischer Ansatzpunkt. Isoform-spezifische Untersuchungen der katalytischen Untereinheiten der Klasse I-PI3K (p110α, p110β, p110γ, p110δ) sollten zur Erkenntnis führen, welche dieser Isoformen für das MM Zellüberleben wichtig sind, um spezifischere Behandlungen mit möglichst geringen Nebenwirkungen zu erlauben. Dafür wurden zunächst Isoform-spezifische Knockdown-Experimente mit MM Zelllinien durchgeführt und sowohl deren Überleben als auch die Aktivierung der nachgeschalteten Komponenten im PI3K Signalweg untersucht. Zur Verifizierung der Ergebnisse wurden sowohl MM Zelllinien als auch Primärzellen mit Isoform-spezifischen PI3K-Inhibitoren behandelt (BYL 719 für p110α, TGX 221 für p110β, CAY10505 für p110γ und CAL 101 für p110δ) und in gleicher Weise untersucht. In beiden Versuchsansätzen stellte sich die katalytische Untereinheit p110α als wichtigste Isoform für das Überleben von MM Zellen mit konstitutiv phosphoryliertem Akt Signal heraus. Weder der Knockdown noch die pharmakologische Inhibition der anderen drei Isoformen (p110β, p110γ, p110δ) führten in MM-Zelllinien zur Beeinträchtigung des Zellüberlebens. Auch reagierten die Primärzellen von MM Patienten größtenteils nicht mit Apoptose auf eine Behandlung mit TGX 221, CAY10505 oder CAL 101. Aufbauend auf der postulierten Bedeutung von p110α, wurde der dafür spezifische Inhibitor BYL 719 mit bereits klinisch etablierten Therapeutika in Kombination verwendet, woraus eine im Vergleich zur Einzelbehandlung verstärkte Apoptose resultierte. Insgesamt deuten diese Daten darauf hin, dass PI3K/p110α eine therapeutisch nutzbare Zielstruktur zur Behandlung des Multiplen Myeloms darstellt. Daher scheinen weitergehende prä-klinische Studien mit p110α Inhibitoren erfolgversprechend. / Multiple myeloma (MM) is an incurable disease, which results from clonal proliferation of malignant plasma cells in the bone marrow. Thereby, a complex signaling network regulates the survival and growth of MM cells. This malignant hematological disease is characterized by profound genetic and phenotypical heterogeneity. The PI3K/Akt signaling pathway is constitutively activated in about 50% of patients with MM and therefore plays an important role for the survival of MM cells. Accordingly, treatment of MM patients with the most isoform-specific drugs may be a desirable goal to achieve therapeutic utility with a minimum of undesired side effects. Therefore, an isoform-specific analysis of the catalytic subunits of the PI3K class I (p110α, p110β, p110γ, p110δ) was undertaken to reveal their individual role(s) for MM cell survival. Initially, isoform-specific knockdown experiments in MM cell lines were performed to assess their survival and the activation states of down-stream components of the PI3K pathway. These experiments were then complemented using isoform-specific pharmacological inhibitors (BYL 719 for p110α, TGX 221 for p110β, CAY10505 for p110γ and CAL 101 for p110δ) in MM cells and primary MM cells. Cell lines with constitutively phosphorylated Akt reduced this signal after p110α knockdown or pharmacologic inhibition and these treatments also affected their survival. Conversely, neither knockdown nor drug-mediated inhibition of any of the other three p110 isoforms influenced MM cell survival. In addition, whereas most primary MM samples were sensitive against BYL-719 only a few samples displayed apoptotic effects when treated with TGX 221, CAY10505 or CAL-101. These results showed that p110α is the major contributor of PI3K-mediated cell survival, and therefore the inhibitor BYL 719 was tested in combination with clinically relevant therapeutics for MM. Such treatment led to increased rates of apoptosis in MM cell lines in comparison to the respective single drug treatments. Taken together, we assume that PI3K/p110α is a therapeutically valuable target structure for the treatment of MM that would warrant more extensive pre-clinical studies.

Isomer

Signaltransduktion

Plasmozytom

ddc:570

Synthesis, characterization and capillary electrophoretic use of new, single-isomer hexasulfated alpha-cyclodextrins

Li, Shulan

29 August 2005

The first three, pure, single-isomer, 6-O-sulfo a-cyclodextrins, the sodium salts of hexakis(6-O-sulfo)-a-CD (HxS), hexakis(2,3-di-O-methyl-6-O-sulfo)-a-cyclodextrin (HxDMS) and hexakis(2,3-di-O-acetyl-6-O-sulfo)-a-cyclodextrin (HxDAS) have been synthesized, analytically characterized and utilized as chiral resolving agents in capillary electrophoresis. The purity of each synthetic intermediate and of the final product was determined by HPLC-ELSD and indirect UV-detection capillary electrophoresis. The structural identity of each intermediate and final product was verified by 1D and 2D NMR, and mass spectrometry.HxS, HxDMS and HxDAS have been used to separate a series of neutral, basic, ampholytic and acidic enantiomers in pH 2.5 and pH 9.5 aqueous and acidic methanol background electrolytes using capillary electrophoresis. Rapid separations with satisfactory peak resolution values were obtained for most of the analytes, indicating that HxS, HxDAS and HxDMS can serve as chiral resolving agent for a wide range of analytes. The observed separation patterns follow the predictions of the CHArged Resolving agent Migration (CHARM) model. The separation patterns observed with HxS, HxDAS and HxDMS as chiral resolving agent were compared with those of (1) b-cyclodextrin analogues, such as, heptakis(6-O-sulfo)-b-cyclodextrin (HS), heptakis(2,3-di-O-acetyl-6-O-sulfo)-b-cyclodextrin (HDAS) and heptakis(2,3-di-O-methyl-6-O-sulfo)-b-cyclodextrin (HDMS); (2) g-cyclodextrin analogues, such as, octakis(6-O-sulfo)-g-cyclodextrin (OS), octakis(2,3-di-O-acetyl-6-Osulfo)- g-cyclodextrin (ODAS) and octakis(2,3-di-O-methyl-6-O-sulfo)-g-cyclodextrin (ODMS). The effects of the structure of the analytes, and those of the pH and the solvent of the background electrolyte were also studied.

capillary electrophoresis

Enantiomer separations

Hexasulfated alpha-cyclodextrins

Synthesis of Heptakis-2-O-Sulfo-Cyclomaltoheptaose, a Single-Isomer Chiral Resolving Agent for Enantiomer Separations in Capillary Electrophoresis

Tutu, Edward

2010 December 1900

Single-isomer sulfated cyclodextrins (SISCDs) have proven to be reliable, effective, robust means for separation of enantiomers by capillary electrophoresis (CE). SISCD derivatives used as chiral resolving agents in CE can carry the sulfo groups either at the C2, C3 or C6 positions of the glucopyranose subunits which provides varied intermolecular interactions to bring about favorable enantioselectivities. The first single-isomer, sulfated β-CD that carries the sulfo group at the C2 position, the sodium salt of heptakis(2-O-sulfo-3-O-methyl-6-Oacetyl) cyclomaltoheptaose (HAMS) has been synthesized. The purity of each synthetic intermediate and of the final product was determined by HILIC and reversed phase HPLC. The structural identity of each intermediate and the final product was verified by 1D, and 2D NMR, and MALDI-TOF mass spectrometry. HAMS has been used as chiral resolving agent for the CE separation of a set of nonionic, weak base and strong acid enantiomers in pH 2.5 background electrolytes. Rapid separations with satisfactory peak resolution values were obtained for the enantiomers of most of the nonionic and weak base analytes. Typically, low concentrations of HAMS were required to effect good enantiomer resolution. The trends in the effective mobilities and separation selectivities as a function of HAMS concentrations followed the predictions of the ionic strength-corrected charged resolving agent migration model (CHARM model). HAMS showed poor complexation with the anionic strong electrolyte enantiomers for which no peak resolution was observed. The separation patterns observed with HAMS as chiral resolving agent were compared with those of other β-cyclodextrin analogues, including heptakis(2-O-methyl- 3-O-acetyl-6-O-sulfo)-b-cyclodextrin (HMAS), heptakis(2-O-methyl-3,6-di-O-sulfo)-b- cyclodextrin (HMdiSu), heptakis(2,3-di-O-acetyl-6-O-sulfo)-b-cyclodextrin (HDAS) and heptakis(2,3-di-O-methyl-6-O-sulfo)-b-cyclodextrin (HDMS).

Enantiomer Separations

Chrial Resolving Agent

Capillary Electrophoresis

Sulfated Cyclodextrin

Single-Isomer

Synthesis

Synthesis, characterization and capillary electrophoretic use of new, single-isomer hexasulfated alpha-cyclodextrins

Li, Shulan

29 August 2005

The first three, pure, single-isomer, 6-O-sulfo a-cyclodextrins, the sodium salts of hexakis(6-O-sulfo)-a-CD (HxS), hexakis(2,3-di-O-methyl-6-O-sulfo)-a-cyclodextrin (HxDMS) and hexakis(2,3-di-O-acetyl-6-O-sulfo)-a-cyclodextrin (HxDAS) have been synthesized, analytically characterized and utilized as chiral resolving agents in capillary electrophoresis. The purity of each synthetic intermediate and of the final product was determined by HPLC-ELSD and indirect UV-detection capillary electrophoresis. The structural identity of each intermediate and final product was verified by 1D and 2D NMR, and mass spectrometry.HxS, HxDMS and HxDAS have been used to separate a series of neutral, basic, ampholytic and acidic enantiomers in pH 2.5 and pH 9.5 aqueous and acidic methanol background electrolytes using capillary electrophoresis. Rapid separations with satisfactory peak resolution values were obtained for most of the analytes, indicating that HxS, HxDAS and HxDMS can serve as chiral resolving agent for a wide range of analytes. The observed separation patterns follow the predictions of the CHArged Resolving agent Migration (CHARM) model. The separation patterns observed with HxS, HxDAS and HxDMS as chiral resolving agent were compared with those of (1) b-cyclodextrin analogues, such as, heptakis(6-O-sulfo)-b-cyclodextrin (HS), heptakis(2,3-di-O-acetyl-6-O-sulfo)-b-cyclodextrin (HDAS) and heptakis(2,3-di-O-methyl-6-O-sulfo)-b-cyclodextrin (HDMS); (2) g-cyclodextrin analogues, such as, octakis(6-O-sulfo)-g-cyclodextrin (OS), octakis(2,3-di-O-acetyl-6-Osulfo)- g-cyclodextrin (ODAS) and octakis(2,3-di-O-methyl-6-O-sulfo)-g-cyclodextrin (ODMS). The effects of the structure of the analytes, and those of the pH and the solvent of the background electrolyte were also studied.

capillary electrophoresis

Enantiomer separations

Hexasulfated alpha-cyclodextrins

Trapping triply ionized thorium isotopes

Churchill, Layne Russell

03 August 2010

Cold trapped ions have many applications in quantum information science and precision metrology. In this thesis, we present progress toward two objectives involving ions confined to linear RF traps: the strong coupling of Ba+ ions with a high finesse optical cavity, and the observation of an optical nuclear transition in 229Th3+. In pursuit of the first objective, a novel high-temperture vapor cell for the spectroscopy of neutral barium was constructed. Using this vapor cell, a new technique for isotope-selective photoionization loading of Ba+ in an ion trap was developed. In pursuit of the second objective, techniques ultimately to be used in creating, trapping, and observing 229Th3+ are studied using 232Th3+. Ion traps are loaded with 232Th3+ via laser ablation of thorium targets. 232Th3+ is detected optically using laser-induced fluorescence and electronically using a channel electron multiplier. A technique for creating ablation targets from trace quantities of thorium nitrate is presented. The primary loss mechanisms of Th3+, charge exchange and chemical reactions, are studied.

Nuclear isomer

Electron bridge

Barium

Multiple ionization

Ion trap

Thorium

Thorium Isotopes

Trapped ions

Beyond books : interactive lessons for the college biology classroom

Londeore, Cynthia Fay

15 February 2012

College level science is frequently taught as a recitation of facts in a lecture hall, and the students are expected to gain understanding and insight with their own study. Interactive learning is more effective than lecture based learning and more memorable for the students. Teaching with hands on models has been shown to specifically be beneficial in a college level molecular biology context. Included here is a guide for the instructor leading her through topic selection, activity development, and presentation to the class, as well as five complete and tested lesson plans with notes on alteration made and the reasons for them. / text

Lesson

Teaching

Interactive

Hands-on

Freshman

Biology

Planning

Isomer

Hydrophobic

Transcription

Translation

Glycolysis

Lac operon

Barium ion cavity qed and triply ionized thorium ion trapping

Steele, Adam V.

17 November 2008

Trapped cold ions are tools which we used to approach two very disparate areas of physics, strong coupling between Ba+ ions and optical resonators, and investigations of a low-energy nuclear isomer of 229-Th. The first part of this thesis describes our progress towards the integration of a miniature Paul (rf) ion trap with a high finesse (F=30000) optical cavity. Ba+ ions were trapped and cooled for long periods and a new scheme for isotope selective photoionization was developed. The second part of this thesis describes our progress towards controlled excitation of the low energy nuclear isomer of 229-Th, which may provide a bridge between the techniques of cold atomic and nuclear physics. As a step towards this goal, 232-Th3+ ions were confined in rf ions traps and cooled via collisions with a buffer gas of helium. A sophisticated scanning program was developed for controlling ion trap loading, tuning lasers, and running a CCD camera to look for fluorescence. The low-lying electronic transitions of Th3+ at 984 nm, 690 nm and 1087 nm were observed via laser fluorescence.

Thorium

Barium

Ion trapping

Isomer

Quantum electrodynamics

Barium

Thorium

Trapped ions

Threshold photo-ionisation and density functional theory studies of metal-carbide clusters.

Dryza, Viktoras

January 2008

Neutral gas-phase metal-carbide clusters are generated by laser ablation and are detected in the constructed time-of-flight mass-spectrometer by laser ionisation. Photo-ionisation efficiency (PIE) experiments are performed on the metal-carbide clusters to determine their ionisation potentials (IPs). Complimentary density functional theory (DFT) calculations are performed on the energetically favorable structural isomers of the metalcarbide clusters. Comparison between the calculated IPs of the isomers and the experimental IP allows the carrier of the observed ionisation onset for a metal-carbide cluster to be assigned. The niobium-carbide clusters Nb₃Cy (y = 0–4), Nb₄Cy (y = 0–6) and Nb₅Cy (y = 0–6) are examined by PIE experiments and DFT calculations. The IPs of the niobium-carbide clusters are found to be either left reasonably unchanged from the IPs of the bare metal clusters or moderately reduced. The clusters Nb₃C₂, Nb₄C₄, Nb₅C₂ and Nb₅C₃ display the largest IP reductions for their corresponding cluster series. The structures assigned to the IPs of the Nb₃Cy (y = 1–3) clusters are based on the carbon atoms attaching to the niobium faces and/or niobium-niobium edges of the triangular Nb₃ cluster. However, for Nb₃C₄ the ionisation onset is assigned to a low-lying isomer, which contains a molecular C₂ unit, rather than the lowest energy isomer, a niobium atom deficient 2×2×2 face-centred cubic (fcc) nanocrystal structure. The structures assigned to the IPs of the Nb₄Cy (y = 1–4) clusters are based on the carbon atoms attaching in turn to the niobium faces of the tetrahedral Nb₄ cluster, developing a 2×2×2 fcc nanocrystal structure for Nb₄C₄. For Nb₄C₃ two ionisation onsets are observed; one weak onset at low energy and another more intense onset at high energy. It is proposed that the two onsets are due to ionisation from both a metastable ³A₁ state and the ground ¹A₁ state of the lowest energy isomer. The ionisation onsets of Nb₄C₅ and Nb₄C₆ are also proposed to originate from metastable triplet states of the lowest energy isomers, with the transitions from the ground singlet states calculated to be greater than the highest achievable photon energy in the laboratory. The structures of Nb₄C₅ and Nb₄C₆ have one and two carbon atoms in a 2×2×2 fcc nanocrystal substituted with molecular C₂ units, respectively. The structures assigned to the IPs of the Nb₅Cy (y = 1–6) clusters are based on the underlying Nb₅ cluster being in either a “prolate” or “oblate” trigonal bipyramid geometry; the former has six niobium faces available for carbon addition, while the latter has two niobium butterfly motifs and two niobium faces available for carbon addition. Both the structures of Nb₅C₅ and Nb₅C₆ have the underlying Nb₅ cluster in the oblate trigonal bipyramid geometry and contain one and two molecular C₂ units, respectively. The tantalum-carbide clusters Ta₃Cy (y = 0–3), Ta₄Cy (y = 0–4) and Ta₅Cy (y = 0–6) are examined by PIE experiments and DFT calculations. The IPs of the tantalum-carbide clusters in each series show trends that are very similar to the corresponding iso-valent niobium-carbide cluster series, although the IP reductions upon carbon addition are smaller for the former. For the vast majority of tantalum-carbide clusters, the same structural isomer is assigned to the ionisation onset as that assigned for the corresponding niobium-carbide cluster. Bimetallic tantalum-zirconium-carbide clusters are generated using a constructed double ablation cluster source. The Ta₃ZrCy (y = 0–4) clusters are examined by PIE experiments and DFT calculations. The IP trend for the Ta₃ZrCy cluster series is reasonably similar to that of the Ta₄Cy cluster series, although the IP reductions upon carbon addition are greater for the former. The structures assigned to the IPs of the Ta₃ZrCy (y = 1–4) clusters are based on the carbon atoms attaching in turn to the metal faces of the tetrahedral Ta₃Zr cluster. In summary, the work presented in this thesis demonstrates that the structures of metalcarbide clusters can be inferred by the determination of their IPs through PIE experiments in combination with DFT calculations on candidate structural isomers. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1347219 / Thesis (Ph.D.) - University of Adelaide, School of Chemistry and Physics, 2008

Threshold photo-ionisation and density functional theory studies of metal-carbide clusters.

Dryza, Viktoras

January 2008

Neutral gas-phase metal-carbide clusters are generated by laser ablation and are detected in the constructed time-of-flight mass-spectrometer by laser ionisation. Photo-ionisation efficiency (PIE) experiments are performed on the metal-carbide clusters to determine their ionisation potentials (IPs). Complimentary density functional theory (DFT) calculations are performed on the energetically favorable structural isomers of the metalcarbide clusters. Comparison between the calculated IPs of the isomers and the experimental IP allows the carrier of the observed ionisation onset for a metal-carbide cluster to be assigned. The niobium-carbide clusters Nb₃Cy (y = 0–4), Nb₄Cy (y = 0–6) and Nb₅Cy (y = 0–6) are examined by PIE experiments and DFT calculations. The IPs of the niobium-carbide clusters are found to be either left reasonably unchanged from the IPs of the bare metal clusters or moderately reduced. The clusters Nb₃C₂, Nb₄C₄, Nb₅C₂ and Nb₅C₃ display the largest IP reductions for their corresponding cluster series. The structures assigned to the IPs of the Nb₃Cy (y = 1–3) clusters are based on the carbon atoms attaching to the niobium faces and/or niobium-niobium edges of the triangular Nb₃ cluster. However, for Nb₃C₄ the ionisation onset is assigned to a low-lying isomer, which contains a molecular C₂ unit, rather than the lowest energy isomer, a niobium atom deficient 2×2×2 face-centred cubic (fcc) nanocrystal structure. The structures assigned to the IPs of the Nb₄Cy (y = 1–4) clusters are based on the carbon atoms attaching in turn to the niobium faces of the tetrahedral Nb₄ cluster, developing a 2×2×2 fcc nanocrystal structure for Nb₄C₄. For Nb₄C₃ two ionisation onsets are observed; one weak onset at low energy and another more intense onset at high energy. It is proposed that the two onsets are due to ionisation from both a metastable ³A₁ state and the ground ¹A₁ state of the lowest energy isomer. The ionisation onsets of Nb₄C₅ and Nb₄C₆ are also proposed to originate from metastable triplet states of the lowest energy isomers, with the transitions from the ground singlet states calculated to be greater than the highest achievable photon energy in the laboratory. The structures of Nb₄C₅ and Nb₄C₆ have one and two carbon atoms in a 2×2×2 fcc nanocrystal substituted with molecular C₂ units, respectively. The structures assigned to the IPs of the Nb₅Cy (y = 1–6) clusters are based on the underlying Nb₅ cluster being in either a “prolate” or “oblate” trigonal bipyramid geometry; the former has six niobium faces available for carbon addition, while the latter has two niobium butterfly motifs and two niobium faces available for carbon addition. Both the structures of Nb₅C₅ and Nb₅C₆ have the underlying Nb₅ cluster in the oblate trigonal bipyramid geometry and contain one and two molecular C₂ units, respectively. The tantalum-carbide clusters Ta₃Cy (y = 0–3), Ta₄Cy (y = 0–4) and Ta₅Cy (y = 0–6) are examined by PIE experiments and DFT calculations. The IPs of the tantalum-carbide clusters in each series show trends that are very similar to the corresponding iso-valent niobium-carbide cluster series, although the IP reductions upon carbon addition are smaller for the former. For the vast majority of tantalum-carbide clusters, the same structural isomer is assigned to the ionisation onset as that assigned for the corresponding niobium-carbide cluster. Bimetallic tantalum-zirconium-carbide clusters are generated using a constructed double ablation cluster source. The Ta₃ZrCy (y = 0–4) clusters are examined by PIE experiments and DFT calculations. The IP trend for the Ta₃ZrCy cluster series is reasonably similar to that of the Ta₄Cy cluster series, although the IP reductions upon carbon addition are greater for the former. The structures assigned to the IPs of the Ta₃ZrCy (y = 1–4) clusters are based on the carbon atoms attaching in turn to the metal faces of the tetrahedral Ta₃Zr cluster. In summary, the work presented in this thesis demonstrates that the structures of metalcarbide clusters can be inferred by the determination of their IPs through PIE experiments in combination with DFT calculations on candidate structural isomers. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1347219 / Thesis (Ph.D.) - University of Adelaide, School of Chemistry and Physics, 2008

Untersuchung der Bildung, des Isotopenaustausches und der Isomerisierung des Ionensystem HCO + /HOC +

Richthofen, Jan von,

January 2003

Chemnitz, Techn. Univ., Diss., 2002.