Analisi preclinica di nuove strategie terapeutiche basate sull'inibizione di protein-chinasi nell'osteosarcoma.

Scopo: L’obiettivo del presente programma di studio è stato quello di identificare e validare nuovi possibili bersagli terapeutici per l’osteosarcoma (OS) partendo dall’analisi del chinoma umano. Risultati: L’analisi del profilo di espressione genica ottenuta su 21 campioni clinici di OS ad alto grado di malignità ha permesso di selezionare le seguenti chinasi di possibile rilevanza biologica per l’OS: AURK-A, AURK-B, CDK2, PIK3CA, PLK-1. Le chinasi selezionate sono state validate tramite RNA interference. Successivamente è stata valutata l’efficacia dei relativi inibitori specifici: VX-680 e ZM-447439 inibitori delle Aurora-chinasi, Roscovitina di CDK2 e NMS1 di PLK-1, già inclusi in studi clinici. In termini d’inibizione della crescita cellulare le linee sono risultate maggiomente sensibili ai farmaci VX-680 e NMS1. E’ stata osservata una minor sensibilità ai farmaci VX-680, ZM447439 e NMS1 nelle linee doxorubicina(DX)-resistenti (caratterizzate da elevati livelli di espressione di ABCB1), indicando questi farmaci come potenziali substrati di ABCB1. La Roscovitina, nonostante i valori di IC50 elevati, non sembrerebbe substrato di ABCB1. La validazione preclinica di VX-680 e ZM447439 è stata completata. La forte inibizione della crescita è causata da endoreduplicazione per mancata citodieresi con conseguente formazione di una popolazione iperploide e apoptosi. Inoltre, VX-680 inibisce la motilità e la capacità di formare colonie. Esperimenti di associazione farmacologica mostrano che VX-680 interagisce positivamente con tutti i chemioterapici convenzionali impiegati nel trattamento dell’OS. NMS-1 produce interazioni positive con la DX in linee cellulari DX-resistenti, probabilmente grazie all’effetto revertante esercitato su ABCB1. La Roscovitina produce interazioni positive con CDDP e DX nelle varianti resistenti, effetto probbilmente dovuto al ruolo di CDK2 nei meccanismi di riparo del DNA. Conclusioni: L’analisi in vitro dell’attività degli inibitori ha permesso di identificare VX-680 come nuovo farmaco di potenziale interesse clinico, soprattutto in virtù delle sue interazioni sinergiche con i chemioterapici di uso convenzionale nel trattamento dell’osteosarcoma.

Functional dextran-based hydrogels

Dextran-based polymers are versatile hydrophilic materials, which can provide functionalized surfaces in various areas including biological and medical applications. Functional, responsive, dextran based hydrogels are crosslinked, dextran based polymers allowing the modulation of response towards external stimuli. The controlled modulation of hydrogel properties towards specific applications and the detailed characterization of the optical, mechanical, and chemical properties are of strong interest in science and further applications. Especially, the structural characteristics of swollen hydrogel matrices and the characterization of their variations upon environmental changes are challenging. Depending on their properties hydrogels are applied as actuators, biosensors, in drug delivery, tissue engineering, or for medical coatings. However, the field of possible applications still shows potential to be expanded. rnSurface attached hydrogel films with a thickness of several micrometers can serve as waveguiding matrix for leaky optical waveguide modes. On the basis of highly swelling and waveguiding dextran based hydrogel films an optical biosensor concept was developed. The synthesis of a dextran based hydrogel matrix, its functionalization to modulate its response towards external stimuli, and the characterization of the swollen hydrogel films were main interests within this biosensor project. A second focus was the optimization of the hydrogel characteristics for cell growth with the aim of creating scaffolds for bone regeneration. Matrix modification towards successful cell growth experiments with endothelial cells and osteoblasts was achieved.rnA photo crosslinkable, carboxymethylated dextran based hydrogel (PCMD) was synthesized and characterized in terms of swelling behaviour and structural properties. Further functionalization was carried out before and after crosslinking. This functionalization aimed towards external manipulation of the swelling degree and the charge of the hydrogel matrix important for biosensor experiments as well as for cell adhesion. The modulation of functionalized PCMD hydrogel responses to pH, ion concentration, electrochemical switching, or a magnetic force was investigated. rnThe PCMD hydrogel films were optically characterized by combining surface plasmon resonance (SPR) and optical waveguide mode spectroscopy (OWS). This technique allows a detailed analysis of the refractive index profile perpendicular to the substrate surface by applying the Wentzel Kramers Brillouin (WKB) approximation. rnIn order to perform biosensor experiments, analyte capturing units such as proteins or antibodies were covalently coupled to the crosslinked hydrogel backbone by applying active ester chemistry. Consequently, target analytes could be located inside the waveguiding matrix. By using labeled analytes, fluorescence enhancement was achieved by fluorescence excitation with the electromagnetic field in the center of the optical waveguide modes. The fluorescence excited by the evanescent electromagnetic field of the surface plasmon was 2 3 orders of magnitude lower. Furthermore, the signal to noise ratio was improved by the fluorescence excitation with leaky optical waveguide modes.rnThe applicability of the PCMD hydrogel sensor matrix for clinically relevant samples was proofed in a cooperation project for the detection of PSA in serum with long range surface plasmon spectroscopy (LRSP) and fluorescence excitation by LRSP (LR SPFS). rn

Master Equation: Biological Applications and Thermodynamic Description

It is well known that many realistic mathematical models of biological systems, such as cell growth, cellular development and differentiation, gene expression, gene regulatory networks, enzyme cascades, synaptic plasticity, aging and population growth need to include stochasticity. These systems are not isolated, but rather subject to intrinsic and extrinsic fluctuations, which leads to a quasi equilibrium state (homeostasis). The natural framework is provided by Markov processes and the Master equation (ME) describes the temporal evolution of the probability of each state, specified by the number of units of each species. The ME is a relevant tool for modeling realistic biological systems and allow also to explore the behavior of open systems. These systems may exhibit not only the classical thermodynamic equilibrium states but also the nonequilibrium steady states (NESS). This thesis deals with biological problems that can be treat with the Master equation and also with its thermodynamic consequences. It is organized into six chapters with four new scientific works, which are grouped in two parts: (1) Biological applications of the Master equation: deals with the stochastic properties of a toggle switch, involving a protein compound and a miRNA cluster, known to control the eukaryotic cell cycle and possibly involved in oncogenesis and with the propose of a one parameter family of master equations for the evolution of a population having the logistic equation as mean field limit. (2) Nonequilibrium thermodynamics in terms of the Master equation: where we study the dynamical role of chemical fluxes that characterize the NESS of a chemical network and we propose a one parameter parametrization of BCM learning, that was originally proposed to describe plasticity processes, to study the differences between systems in DB and NESS.

Electrospun Polymeric Scaffolds with Enhanced Biomimetic Properties for Tissue Engineering Applications

This PhD Thesis is focused on the development of fibrous polymeric scaffolds for tissue engineering applications and on the improvement of scaffold biomimetic properties. Scaffolds were fabricated by electrospinning, which allows to obtain scaffolds made of polymeric micro or nanofibers. Biomimetism was enhanced by following two approaches: (1) the use of natural biopolymers, and (2) the modification of the fibers surface chemistry. Gelatin was chosen for its bioactive properties and cellular affinity, however it lacks in mechanical properties. This problem was overcome by adding poly(lactic acid) to the scaffold through co-electrospinning and mechanical properties of the composite constructs were assessed. Gelatin effectively improves cell growth and viability and worth noting, composite scaffolds of gelatin and poly(lactic acid) were more effective than a plain gelatin scaffold. Scaffolds made of pure collagen fibers were fabricated. Modification of collagen triple helix structure in electrospun collagen fibers was studied. Mechanical properties were evaluated before and after crosslinking. The crosslinking procedure was developed and optimized by using - for the first time on electrospun collagen fibers - the crosslinking reactant 1,4-butanediol diglycidyl ether, with good results in terms of fibers stabilization. Cell culture experiments showed good results in term of cell adhesion and morphology. The fiber surface chemistry of electrospun poly(lactic acid) scaffold was modified by plasma treatment. Plasma did not affect thermal and mechanical properties of the scaffold, while it greatly increased its hydrophilicity by the introduction of carboxyl groups at the fiber surface. This fiber functionalization enhanced the fibroblast cell viability and spreading. Surface modifications by chemical reactions were conducted on electrospun scaffolds made of a polysophorolipid. The aim was to introduce a biomolecule at the fiber surface. By developing a series of chemical reactions, one oligopeptide every three repeating units of polysophorolipid was grafted at the surface of electrospun fibers.

Glykolytische Aktivität von Ovarialkarzinomzelllinien in vitro und in vivo und die Bedeutung von HIF-1alpha

Ovarialkarzinome stellen eine schwer zu therapierende onkologische Erkrankung mit im Durchschnitt sehr schlechter Prognose dar. Die Notwendigkeit einer weiteren Verbesserung der Therapie dieser Erkrankung ist sehr offensichtlich. Studien an anderen Tumorentitäten haben die große Bedeutung des Glukosestoffwechsels, speziell des Laktats, in der Erken- nung, Kategorisierung und Therapie von onkologischen Erkrankungen gezeigt. In der Kon- trolle des Glukosestoffwechsels, aber auch vieler anderer Funktionen, wie z. B. des Tumor- wachstums und des Zellüberlebens, hat sich der Hypoxia Inducible Factor (HIF) als beson- ders wichtig herausgestellt. In der vorliegenden Arbeit wurde daher der Glukosestoffwechsel in Ovarialkarzinomen und seine Beeinflussung durch eine Herunterregulierung von HIF-1α untersucht. Hierzu wurden die Ovarialkarzinomzelllinien OC 316 und IGROV1 (Wildtyp) und die Zelllinie OC 316 mit einem lentiviralen Vektor zur Herunterregulierung von HIF-1α ver- wendet. Das Wachstumsverhalten, die Laktatproduktion und der Glukoseverbrauch wurden bei diesen Zelllinien in vitro untersucht. Darüber hinaus wurden mithilfe der bildgebenden Biolumineszenz ATP, Laktat, Pyruvat und Glukose in Xenotransplantaten dieser Zelllinien gemessen. Diese in unserer Arbeitsgruppe entwickelte Methode erlaubt die quantitative Er- fassung von Metaboliten in selektiven Gewebsarealen, wie z. B. in vitalen Tumorregionen, in stomatösen Arealen oder im tumornahen Normalgewebe.rnIn dieser Arbeit kann gezeigt werden, dass die glykolytische Aktivität von Ovarialkarzinom- zelllinien mit dem Wachstumsverhalten positiv korreliert ist. Eine Herunterregulierung von HIF-1α führt zu einer deutlichen Verlangsamung des Zellwachstums, wobei allerdings alle HIF-Zielgene betroffen sein können. Des Weiteren wird mit den hier gezeigten Daten die prognostische Bedeutung des Laktats bestätigt. Hohe Laktatwerte in vitro waren mit schnel- lerem Wachstum korreliert. Zusätzlich zeigen die vorliegenden Daten, dass die gewonnenen Befunde in vitro nur näherungsweise auf die in vivo Situation übertragbar sind. Eine Herun- terregulierung von HIF-1α zeigt keine signifikant unterschiedlichen Laktatwerte in den Xe- notransplantaten. Allerdings spiegeln sich zelllinienspezifische Unterschiede in der metabo- lischen Aktivität in vitro im metabolischen Verhalten der entsprechenden Xenografttumoren recht gut wider.rnDie gewonnenen Ergebnisse weisen zum einen auf die prognostische Bedeutung einer Bestimmung von Laktatkonzentrationen aus Tumorbiopsien hin und bestätigen zum anderen die klinische Aussagekraft metabolischer Aktivitätsmessungen mittels PET. Solche Daten könnten dazu dienen Patienten einer individualisierten Therapie zuzuführen. Außerdem wur- de die Effektivität, aber auch die Komplexität einer gegen HIF-1α gerichteten Therapie auf Protein- und Genebene bestätigt. Somit zeigen die erzielten Resultate einerseits Möglichkei- ten einer individualisierten Therapie auf, andererseits unterstreichen sie die große Notwen- digkeit weiterer Grundlagenforschung auf diesem Gebiet.

Immunmodulatorische Konsequenzen einer Eph-Rezeptorspaltung durch MMP-7

Tumore haben die Fähigkeit ihr Mikromilieu zu modulieren, um so ihre Entwicklung und ihre Ausbreitung zu fördern oder sich vor Angriffen des Immunsystems zu schützen. Die Expression der Matrix Metalloproteinasen 7 (MMP-7) wurde in vielen verschiedenen Tumoren analysiert. Neben prometastatischen und wachstumsfördernden Funktionen wurden auch antiapoptotische Wirkungen von MMP-7 auf die Tumorzellen belegt (Strand et al., 2004). Doch noch sind nicht alle immunmodulatorischen Eigenschaften von MMP-7 aufgeklärt worden. Ziel der vorliegenden Arbeit war es, die immunologischen Konsequenzen einer MMP-7 Expression durch Tumorzellen zu untersuchen.rnIm Rahmen dieser Arbeit konnte gezeigt werden, dass MMP-7 über die Spaltung der Rezeptortyrosinkinase EphB2 die Aktinpolymerisation und dadurch auch die Endozytose in Zellen verändern kann. EphB2 wurde als Target einer MMP-7 vermittelten Spaltung identifiziert. Die Untersuchungen mit MMP-7 überexprimierenden Hek 293 EcR Zellen und MMP-7 behandelten DCs zeigten unter dem Einfluss von MMP-7 eine wesentlich geringere EphB2 Expression auf deren Zelloberflächen. Zudem konnte durch in vitro Spaltversuche und anschließende Sequenzierung die Schnittstelle der MMP-7 induzierten Spaltung von EphB2 bestimmt werden. Anschließende Analysen belegten, dass durch die MMP-7 vermittelte Spaltung von EphB2 die Aktivierung der kleinen GTPasen Rac1 und Cdc42 stark reduziert wurden. Die Funktion von Cdc42 und Rac1 während der Aktinpolymerisation, als auch innerhalb der EphB2- Signalkaskade wurde bereits beschrieben (Irie and Yamaguchi, 2002). In der vorliegenden Arbeit wurde gezeigt, dass MMP-7 die Aktinpolymerisation in Zellen reduzierte, was warscheinlich eine direkte Auswirkung der EphB2 Spaltung war. rnWeitere Versuche ließen einen Zusammenhang zwischen der reduzierten Aktinpolymerisation und der verminderten Endozytose in MMP-7 behandelten Zellen erkennen. Unter dem Einfluss von MMP-7 konnte sowohl in Hek 293 EcR MMP7 Zellen als auch in unreifen DCs eine Reduktion der endozytotischen Aktivität ermittelt werden.rnUntersuchungen mit humanen T-Zellen zeigten auch hier einen verminderten Nachweis von EphB2 auf den Zellen, wenn diese vorher mit MMP-7 inkubiert wurden. Zudem führte die Anwesenheit von MMP-7 in T-Zellen ebenfalls zu einer verminderten Aktinpolymerisation. Die mit der Aktinpolymerisation verbundene Restrukturierung des Zytoskeletts gilt als essentieller Prozess für die T-Zellaktivität (Tskvitaria-Fuller et al., 2003; Krummel et al., 2000). Anschließende Versuche konnte daher nicht nur eine Beeinträchtigung von MMP-7 auf die zytotoxische Aktivität von T-Zellen belegen, sondern deuteten auch auf eine verminderten Proliferation nach Antigenstimulation unter dem Einfluss von MMP-7 hin.rnDie Rolle von MMP-7 aber auch die von EphB2 in der Tumorimmunologie wurde bereits untersucht. So konnte eine induzierte Überexpression von EphB2 das Krebszellwachstum, die Adhäsion und die Migration inhibieren, während der Verlust der EphB2 Expression zu einer verstärkten Invasion und Metastisierung von Tumorzellen führte (Guo et al., 2006). Zudem konnte gezeigt werde, dass Tumorzellen die Funktion von DCs beeinflussen können. DCs aus tumortragenden Mäusen zeigten im Vergleich zu Kontrollzellen eine reduzierte Aktivierung von Cdc42 und Rac1 und zudem eine verminderte Endozytoseaktivität (Tourkova et al., 2007). Die in der vorliegenden Arbeit gezeigten MMP-7 bedingten Veränderungen der Aktinpolymerisation stellen womöglich eine Verbindung zwischen den genannten Untersuchungen her und offenbaren weitere immunologische Konsequenzen einer MMP-7 Expression im Tumor. rnrn

Caratterizzazione e ruolo di PKCε e PKCδ in modelli di differenziamento megacariocitario normale e patologico

La PKCε e la PKCδ, chinasi ubiquitariamente distribuite e ad azione pleiotropica, sono implicate del differenziamento, sopravvivenza e proliferazione cellulare. Esse sono coinvolte nel processo differenziativo delle cellule staminali ematopoietiche e in fenomeni patologici associati al compartimento sanguigno. In questa tesi sono presentati i risultati riguardanti lo studio in vitro del ruolo di PKCε e PKCδ nel contesto del differenziamento megacariocitario, in particolare si caratterizza l’espressione e la funzione di queste chinasi nel modello umano e nel modello murino di Megacariocitopoiesi, normale e patologica. Confrontando le cinetiche dei due modelli presi in analisi nello studio è stato possibile osservare come in entrambi PKCε e PKCδ dimostrino avere una chiara e specifica modulazione nel progredire del processo differenziativo. Questi dati, se confrontati, permettono di affermare che PKCε e PKCδ presentano un pattern di espressione opposto e, nel modello umano rispetto a quello murino, reciproco: nell’uomo i livelli di PKCε devono essere down-modulati, mentre nel topo, al contrario, i livelli della chinasi risultano up-modulati durante lo stesso processo. Analogamente, le CD34+ in differenziazione presentano una costante e maggiore espressione di PKCδ durante la maturazione MK, mentre nel modello murino tale proteina risulta down-modulata nella fase più tardiva di formazione della piastrina. Le chinasi mostrano in oltre di agire, nei due modelli, attraverso pathways distinti e cioè RhoA nel topo e Bcl-xL nell’uomo. È stato inoltre verificato che l’aberrante differenziamento MK osservato nella mielofibrosi primaria (PMF), è associato a difetti di espressione di PKCε e di Bcl-xL e che una forzata down-modulazione di PKCε porta ad un ripristino di un normale livello di espressione di Bcl-xL così come della popolazione di megacariociti formanti propiastrine. I dati ottenuti indicano quindi che PKCε e PKCδ svolgono un ruolo importante nel corretto differenziamento MK e che PKCε potrebbe essere un potenziale nuovo target terapeutico nelle PMF.

Entwicklung eines Thermodruckhydrolyse-Verfahrens zur Vorbehandlung von Weizenstroh ohne vorherige mechanische Zerkleinerung für die Produktion von Polyhydroxybuttersäure

In der vorliegenden Arbeit wurde der nachwachsende Rohstoff Weizenstroh für die Produktion des Biopolymers Polyhydroxybuttersäure genutzt. Als Lignocellulose enthält Weizenstroh einen hohen Anteil an Glucose und Xylose in Form von Cellulose und Hemicellulose. Eine Gewinnung ist aufgrund der komplexen Struktur mit Lignin als dritte Hauptkomponente nur durch eine Vorbehandlung möglich. Hierzu wurde ein thermochemisches Vorbehandlungsverfahren im halbtechnischen (125 l Reaktor) und technisch (425 l Reaktor) Maßstab mit verdünnter Salpetersäure (bis 1 % v/v) etabliert und hinsichtlich verschiedener Versuchsparameter (Behandlungstemperatur, Säure-Konzentration, etc.) optimiert. Auf eine mechanische Vorbehandlung wurde verzichtet. Danach erfolgte eine enzymatische Hydrolyse der vorbehandelten Biomasse. Der PHB-Produzent Cupriavidus necator DSM 545 wurde eingesetzt, um aus den freigesetzten Zuckern PHB zu synthetisieren. rnDurch die Optimierung der Vorbehandlung konnten bis zu 90 % der Glucose und 82 % der Xylose nach der enzymatischen Hydrolyse aus dem Stroh als Monomere und Oligomere freigesetzt werden. Außerdem wurde eine erfolgreiche Überführung des Vorbehandlungsprozesses in den 425 l Reaktor demonstriert. In den gewonnenen Zucker-Hydrolysaten konnten hohe Zelldichten und PHB-Gehalte mit bis zu 38 % erreicht werden. Eine vorherige kostenintensive Reinigung der Hydrolysate war nicht nötig. Zusätzlich konnte gezeigt werden, dass die Reststoffe nach der enzymatischen Hydrolyse, Zellkultur und PHB-Extraktion ausreichendes Potential für eine Biogas-Produktion besitzen. rn

The mammary gland vasculature revisited

Concomitant with the extensive growth and differentiation of the mammary epithelium during pregnancy and lactation, and epithelial involution after weaning, the vasculature of the mammary gland undergoes repeated cycles of expansion and regression. Vascular expansion is effected by sprouting angiogenesis, intussusception and conceivably also vasculogenesis. The capacity of the epithelial cells to stimulate vascular growth and differentiation is dependent on the constellation of systemic and local hormones and growth factors as well as the changing demands for oxygenation and nutrient supply. This results in the release of angiogenic factors which stimulate endothelial cell growth and regulate vascular architecture. In contrast to the angiogenic phase of the mammary gland cycle, little is known about the control of vascular regression although this would possibly offer new insights into therapeutic possibilities against breast cancer. In this review we summarize knowledge regarding the mechanisms regulating the vasculature of the mammary gland and delineate the importance of the vasculature in the attainment of organ function. In addition, we discuss the angiogenic mechanisms observed during mammary carcinogenesis and their consequences for breast cancer therapy.

Chemical inhibitors of the calcium entry channel TRPV6

Calcium entry channels in the plasma membrane are thought to play a major role in maintaining cellular Ca(2+) levels, crucial for growth and survival of normal and cancer cells. The calcium-selective channel TRPV6 is expressed in prostate, breast, and other cancer cells. Its expression coincides with cancer progression, suggesting that it drives cancer cell growth. However, no specific inhibitors for TRPV6 have been identified thus far.

Disabling c-Myc in childhood medulloblastoma and atypical teratoid/rhabdoid tumor cells by the potent G-quadruplex interactive agent S2T1-6OTD

We investigated here the effects of S2T1-6OTD, a novel telomestatin derivative that is synthesized to target G-quadruplex-forming DNA sequences, on a representative panel of human medulloblastoma (MB) and atypical teratoid/rhabdoid (AT/RT) childhood brain cancer cell lines. S2T1-6OTD proved to be a potent c-Myc inhibitor through its high-affinity physical interaction with the G-quadruplex structure in the c-Myc promoter. Treatment with S2T1-6OTD reduced the mRNA and protein expressions of c-Myc and hTERT, which is transcriptionally regulated by c-Myc, and decreased the activities of both genes. In remarkable contrast to control cells, short-term (72-hour) treatment with S2T1-6OTD resulted in a dose- and time-dependent antiproliferative effect in all MB and AT/RT brain tumor cell lines tested (IC(50), 0.25-0.39 micromol/L). Under conditions where inhibition of both proliferation and c-Myc activity was observed, S2T1-6OTD treatment decreased the protein expression of the cell cycle activator cyclin-dependent kinase 2 and induced cell cycle arrest. Long-term treatment (5 weeks) with nontoxic concentrations of S2T1-6OTD resulted in a time-dependent (mainly c-Myc-dependent) telomere shortening. This was accompanied by cell growth arrest starting on day 28 followed by cell senescence and induction of apoptosis on day 35 in all of the five cell lines investigated. On in vivo animal testing, S2T1-6OTD may well represent a novel therapeutic strategy for childhood brain tumors.

The Search for Low Energy Conformational Families of Small Peptides: Searching for Active Conformations of Small Peptides in the Absence of a Known Receptor

Breast cancer is the most common cancer among women. Tamoxifen is the preferred drug for estrogen receptor-positive breast cancer treatment, yet many of these cancers are intrinsically resistant to tamoxifen or acquire resistance during treatment. Therefore, scientists are searching for breast cancer drugs that have different molecular targets. Previous work revealed that 8-mer and cyclic 9-mer peptides inhibit breast cancer in mouse and rat model systems, interacting with an unknown receptor, while peptides smaller than eight amino acids did not inhibit breast cancer. We have shown that the use of replica exchange molecular dynamics predicts structure and dynamics of active peptides, leading to the discovery of smaller peptides with full biological activity. These simulations identified smaller peptide analogs with a conserved turn, a β-turn formed in the larger peptides. These analogs inhibit estrogen-dependent cell growth in a mouse uterine growth assay, a test showing reliable correlation with human breast cancer inhibition. We outline the computational methods that were tried and used with the experimental information that led to the successful completion of this research.

Computational Design and Experimental Discovery of an Anti-estrogenic Peptide Derived from Alpha-Fetoprotein

Breast cancer is the most common cancer among women, and tamoxifen is the preferred drug for estrogen receptor-positive breast cancer treatment. Many of these cancers are intrinsically resistant to tamoxifen or acquire resistance during treatment. Consequently, there is an ongoing need for breast cancer drugs that have different molecular targets. Previous work has shown that 8-mer and cyclic 9-mer peptides inhibit breast cancer in mouse and rat models, interacting with an unsolved receptor, while peptides smaller than eight amino acids did not. We show that the use of replica exchange molecular dynamics predicts the structure and dynamics of active peptides, leading to the discovery of smaller peptides with full biological activity. Simulations identified smaller peptide analogues with the same conserved reverse turn demonstrated in the larger peptides. These analogues were synthesized and shown to inhibit estrogen-dependent cell growth in a mouse uterine growth assay, a test showing reliable correlation with human breast cancer inhibition.

Computational approaches for the design of peptides with anti-breast cancer properties

Background: Breast cancer is the most common cancer among women. Tamoxifen is the preferred drug for estrogen receptor-positive breast cancer treatment, yet many of these cancers are intrinsically resistant to tamoxifen or acquire resistance during treatment. Therefore, scientists are searching for breast cancer drugs that have different molecular targets. Methodology: Recently, a computational approach was used to successfully design peptides that are new lead compounds against breast cancer. We used replica exchange molecular dynamics to predict the structure and dynamics of active peptides, leading to the discovery of smaller bioactive peptides. Conclusions: These analogs inhibit estrogen-dependent cell growth in a mouse uterine growth assay, a test showing reliable correlation with human breast cancer inhibition. We outline the computational methods that were tried and used along with the experimental information that led to the successful completion of this research.

[Sarcomas and mixed mesodermal tumors of the uterus]

Malignant mesodermal tumors of the uterus are an inhomogenous group of uterine malignancies with different pathogenesis, clinical presentation and prognosis. These rare tumors represent approximately 1 % of all uterine malignancies. The aggressive carcinosarcomas or mixed muellerian tumors are defined by mixed malignant epithelial and malignant mesodermal histopathology and are of the same precursor cell origin like endometrial cancer. Thus, carcinosarcomas were reclassified by the FIGO as an aggressive type of endometrial cancer and treated like type II endometrial cancer. Adenosarcomas are also mixed tumors with benign epithelial proliferation and malignant mesodermal cell growth, have a good prognosis and represent less than 5 % of all mesodermal uterine malignancies. Besides carcinosarcomas, the pure mesodermal leiomyosarcomas are the most common mesodermal malignancies. Patients with leiomyosarcamos are usually perimenopausal, and although more than half of the patients present with symptoms, diagnosis occurs incidentally in most cases in final histopathologic workup of an excised putative myoma or uterus. Adequate anamnesis, gynecologic examination and careful imaging by transvaginal ultrasound in the preoperative setting might hint to correct differential diagnosis in many cases. Overall the prognosis of uterine leiomyomas is poor. Malignancies of the endometrial stroma are very rare and divided in two subgroups, the mostly estrogen receptor positive endometrial stromal sarcoma, which occur preferably in premenopausal women and show a favorable prognosis, and the very aggressive undifferentiated endometrial sarcomas. The more rare undifferentiated endometrial sarcomas occur in postmenopausal women and most patients die in the first two years after diagnosis. Risk stratification of preoperative differential diagnosis requires improvements and the correct histopathologic workup of mesodermal uterine malignancies is still a challenge for pathologists.