Molekylært målrettet medicinsk kræftbehandling for klinikere principper og metoder

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Molekylært målrettet medicinsk kræftbehandling for klinikere principper og metoder Professor Claus Lindbjerg Andersen Department of Molecular Medicine (MOMA) Aarhus University hospital

Outline The central dogma Regulation of transcription Cell signaling pathways Oncogenes and Tumor suppressor genes What is driving tumor progression? Tumor drivers (potential therapeutic targets) Methods Intra-tumor heterogeneity Circulating tumor DNA the marker of the future? 2

Det centrale dogme The Central Dogma DNA transkriberes til RNA som translateres til PROTEIN AAAAA

Det centrale dogme The Central Dogma DNA transkriberes til RNA som translateres til PROTEIN AAAAA microrna

Pakning af DNA Mennesket: totalt 3mrd bp DNA pr. Genom 2m DNA! DNA bindes rundt om proteinkomplekser (Histoner) DNA-protein kompleks = Kromatin Kompakt DNA: 40.000 x kortere end udpakket DNA!

Regulering af transkription Transkription kræver lokal kromatin remodellering! To hovedmekanismer gør at DNA sekvensen bliver tilgængelig for polymeraser og andre enzymer: Kromatin remodelleringskomplekser Enzymatisk modifikation af histoner

Regulation of transcription

Regulation of transcription

Regulation of transcription

Alternative splicing α-tropomysin pre-mrna

Hvad regulerer en normal celles vækst og deling? Kommunikation med omverdenen Humane celler er i stand til udsende signaler som andre celler er i stand til at opfatte og respondere på. Vækst stimulerende signaler fra omgivelserne processeres i komplexe netværk cellen, som afgør om celle vækst og deling er den passende respons.

Hvad regulerer en normal celles vækst og deling? Kommunikation med omverdenen

The Human EGF receptor signaling network: Resistance to therapy Invasion and metastasis Tumor growth Loss of contact inhibition Stemness, resistance Tumor Output

An oncogene is a gene that has the potential to cause cancer. In tumor cells, oncogenes are ACTIVATED. Aproto-oncogene becomes an oncogene Activated oncogenes can cause cells that ought to die to survive and proliferate instead. There are three basic methods of activation: 1. A mutation within a proto-oncogene, or within a regulatory region, can cause an increase in protein activity a loss of regulation 2. An increase in the amount of protein, caused by an increase of protein expression (through misregulation) an increase of protein (mrna) stability, prolonging its existence and thus its activity in the cell gene duplication (one type of chromosome abnormality), resulting in an increased amount of protein in the cell 3) A chromosomal translocation may activate oncogenes (through misregulation)

Tumor-suppressor genes, either have a dampening or repressive effect on the regulation of the cell cycle or promote apoptosis, and sometimes do both. Loss or reduction of the function of a tumor suppressor, enables the cell to progress towards cancer, usually in combination with other genetic changes. The functions of tumor-suppressor proteins fall into several categories including the following: 1. Repression of genes that are essential for the continuing of the cell cycle. 2. Proteins that couple the cell cycle to DNA damage. 3. If the damage cannot be repaired, the cell should initiate apoptosis (programmed cell death) to remove the threat it poses for the greater good of the organism. 4. Cell adhesion molecules that prevent tumor cells from dispersing, enforce contact inhibition, and inhibit metastasis. 5. DNA repair proteins are classified as tumor suppressors, as mutations in their genes increase the risk of cancer.

Distribution of mutations in: two oncogenes (PIK3CA and IDH1) two tumor suppressor genes (RB1 and VHL). B Vogelstein et al. Science 2013;339:1546-1558

What drives tumor-progression? Genetic instability Carcinogens Mutagenic agents (genotoxic) Tumor initiators Non-mutagenic (nongenotoxic) Tumor promoters both toxic and mitogenic agents

Figure 11.18 The Biology of Cancer ( Garland Science 2007)

Consequence of multiple successions of clonal expansion Tumors are genetically heterogeneous Notice: 1. Tumor genomes become increasingly unstable as progression advances 2. The rate of genetic change increases as tumor progression advances 3. Outpace Darwinian selection

Genetic alterations accumulate during the adenoma to carcinoma sequence Wnt From Markowitz et al 2009 (NEJM. 361; 25) 21

Multiple paths to colorectal cancer Figure 11.11a The Biology of Cancer ( Garland Science 2007)

Tumor progression En kamp mellem tumor drivere og tumor barrierer

Figure 11.44 The Biology of Cancer ( Garland Science 2007)

Examples Activation of tumor drivers

Formation of the bcr-abl fusion oncogene of Chronic Myelogenous Leukemia Detection by FISH

Burkitt s lymphoma

Burkitt s lymphoma

Over expression of erbb2/her2 in mamma cancer is associated with poor prognosis FISH analysis erbb2/her2 CCND1/cyclinD1

~40% mutated EGFR Sebolt-Leopold, J. S. Clin Cancer Res 2008;14:3651-3656 Copyright 2008 American Association for Cancer Research

RAS signaling Most commonly mutated codons 12, 13 and 61 results in destruction of GTPase activity or prevention of GAP binding RAS gets locked in on state GEF: Guanine nucleotide exchange factors GAP: GTPase-activating protein

Methods Immunohistochemistry (IHC) Fluorescence in situ hybridization (FISH) Reverse-transcription quantitative PCR Mutation detection Target Single Single Single Purpose Protein over-expression Copy number Structural rearrangements RNA Quantification (Fusion transcript) Quantitative PCR Single Structural rearrangements Digital PCR Single Structural rearrangements Amplification Refractory Mutation System (ARMS) Primer extension Sanger sequencing Next generation sequencing Single Single Single Whole genome Whole exome Point mutations Point mutations Structural rearrangements Point mutations Structural rearrangements Point mutations

Massive parallel sequencing Library construction Fragment DNA to ~300 bp Attach adaptors to the ends of the fragments Sequencing Attach 8 x 160.000.000 fragments to surface Sequence all fragments in parallel (100 bp from both ends of the fragments) Paired-end sequencing

Number of somatic mutations in human cancers detected by genome-wide sequencing studies B Vogelstein et al. Science 2013;339:1546-1558

Number and distribution of driver gene mutations in five tumor types. B Vogelstein et al. Science 2013;339:1546-1558

Signal transduction pathways affected by mutations in human cancer. Red = driver genes B Vogelstein et al. Science 2013;339:1546-1558

Four types of genetic heterogeneity in tumors B Vogelstein et al. Science 2013;339:1546-1558

Solid tumors release DNA to the circulation Cell free DNA, incl. ctdna, isolated from plasma Circulating tumor DNA, ctdna

Liquid Biopsy Tracking Resistance ctdna Early Detection Monitoring Tumor Burden

Monitoring response to chemotherapy Metastatic breast cancer patient