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Friday Science Review: April 16, 2010

An amazing week of Canadian research advancements…

Cancer Genome Project is Well Underway: The Ontario Institute for Cancer Research (OICR), who is leading the International Cancer Genome Consortium (ICGC), published a report this week in Nature outlining the international effort to sequence 25,000 cancer genomes – 500 genomes from each of the 50 most common cancers such as breast, colon, liver, lung, and pancreatic cancers.  Some partial datasets are already available to the global research community at www.icgc.org.  This is truly a Herculean effort that is only possible because of the international collaborative effort of over 200 members around the globe.  Whole cancer genome sequencing will provide a fundamental base to advance personalized medicine to the next level.  Here is the original OICR press release and you can read a more comprehensive ‘Scientific American’ style news feature article on the cancer genome project here in the same issue of Nature.

Seek and Destory: Non-Hodgkins lymphoma cancer is taking a big hit from a newly discovered compound that destroys lymphoma cells.  The small molecule compound targets and blocks a transcription factor called BCL6, which is responsible for half of non-Hodgkins lymphoma cases.  Scientists started with the 3D structure of the BCL6 protein and used computer-aided drug design to perform in silico screening of over a million compounds.  They eventually narrowed it down to this one compound that proved to be efficacious and also non-toxic.  Dr. Gilbert Prive at the University Health Network led the innovative project that demonstrates the success of a computational approach to drug design and the ability to target transcriptions factors with minimal side effects.  Read all about it! – in the free full text article in Cancer Cell.

Divide and Conquer: Cell division is a complicated process with the synchronized dance of chromosomes segregating to each new cell.  It is a poorly understood process but research is this field is advancing with the discovery of new essential proteins involved in cell divisionDr. Laurence Pelletier (Samuel Lunenfeld Research Institute) and his collaborators in Europe used a combination of RNAi tools and mass spectrometry techniques to identify the components of protein complexes involved in cell division.  As cancer cells are hyperactive dividing cells, this new information will also aid in the advancement of cancer targeting therapeutics.  The study appears in the journal Science.

The Missing Link: Many have suspected that there must be some link or relationship between stress, anxiety and depression.  Now there is molecular evidence that this is true.  The connection involves the interaction between corticotropin releasing factor receptor 1 (CRFR1) and certain types of serotonin receptors (5-HTRs).  CRFR1 activity leads to stress related anxiety and it also stimulates an increase in the number of 5-HTRs in the brain, which can lead to signaling abnormalities causing depression.  The team headed by Dr. Stephen Ferguson at the University of Western Ontario also developed a small molecule inhibitor that blocks 5-HTRs.  Let’s hope this inhibitor and knowledge of the molecular links lead to more effective treatments for these disorders.  Check out the free full-text article in Nature Neuroscience.

Smart Buggers:  Understanding how bacteria become resistant to last-resort antibiotic drugs just got a boost from a McMaster University study.  Vancomycin resistant methicillin-resistant staphylococcus aureus (VMRSA), also known as the hospital superbug, is a rapidly growing problem with limited effective solutions.  The research team identified the histidine kinase VanSsc protein as the direct vancomycin detector in bacteria, which then triggers the expression of three genes that provide the drug resistance.  This is the first important step in redesigning antibiotic drugs to effectively fight these little buggers.   Dr. Gerry Wright and his collaborators published their exciting work in Nature Chemical Biology.

Not Just a Bad Golf Shot: Scientists have identified mutations in the SHANK3 gene that are associated with schizophrenia.  SHANK3 is a scaffolding protein involved in the formation of the synapse and maintains the structure of nerve cells.  Dr. Guy Rouleau’s team at the Université de Montréal discovered the new mutations (R1117X and R536W) in two families with schizophrenia patients where one of these families had three affected brothers.  Further molecular and genetic studies in zebrafish models confirmed that the R1117X mutation causes behavioural defects.  Earlier studies linked SHANK3 mutations to autism, which suggests that there is a molecular connection between the two neurological disorders.  The findings are reported in this week’s edition of the Proceedings of the National Academy of Sciences.

Gene Therapy is Still Alive: The promise of gene therapeutics to cure diseases may not have lived up to the hype presented a decade ago but there are still some hopeful successes using gene therapy.  One recent example comes from Laval University where researchers repaired the defective dystrophin gene responsible for Duchenne muscular dystrophy (DMD). In some cases of DMD, the dystrophin gene is misread causing a frame-shift mutation.  These frame-shift mutations may be targeted and repaired by enzymes called meganucleases.  A proof-of-principle project by Dr. Jacques Tremblay demonstrated that expression of specific meganucleases in the muscle of a DMD mouse model can restore the normal reading frame of a mutated dystrophin gene.  More details in this week’s edition of Gene Therapy.

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