Overview

Research Highlights (more...)

  • Ira_cell

    A new cell discovered

    Sepsis is a life-threatening condition characterized by whole-body inflammation to overwhelming infection. A newly discovered cell type known as “innate response activator” has been found to protect against sepsis. This discovery will likely provide insight into the development of sepsis and potentially lead to new avenues for therapeutic intervention.

  • Fourescent_small

    Novel therapy turns off navigation system in disease-promoting cells

    By manipulating the molecular navigation system used by inflammatory immune cells to reach sites of tissue damage, researchers at the Center for Systems Biology may have struck upon an effective novel anti-inflammatory treatment. Given that inflammation is an exacerbator of almost all major diseases, this therapy could potentially have wide-spread benefit.

  • Probing_the_heart_for_infection

    Probing the heart for infection

    A new imaging probe developed by researchers at the Center for Systems Biology can detect acute endocarditis, a rapidly progressing infection of the heart valves. This imaging agent binds tightly to a product released by the most deadly cause of the infection-Staphylococcus aureus-rendering it visible by both optical and PET imaging. Ultimately, the agent could be used to rapidly diagnose, and thus treat, this potentially fatal condition.

  • Spleen

    The spleen's newly discovered function

    While the spleen has long held a reputation for redundancy, recent research has now shown that quite the opposite is true. The spleen, in fact, appears to play an important role in the repair of tissue. Mikael Pittet, one of the four lead investigators responsible for this finding, discusses this work and its possible implications.

  • Glow

    Glow-in-the-dark plaques

    Finding new uses for already FDA approved drugs is a speedy way of translating new biological discoveries into patient benefit. Using a novel catheter-based imaging system, the fluorescent dye Indocyanine green has been shown capable of highlighting the culprits responsible for strokes and heart attacks, namely inflamed arterial plaques.

  • Cell_gray

    When small meets speedy...

    In today's fast paced world, waiting for anything is often frustrating and stressful. But few delays can be worse than that following a diagnostic blood test or biopsy, where results can take days to come back. Recently, a new portable device, known as DMR has been shown capable of on the spot cancer diagnosis.

Upcoming Events (more...)

The MGH Center for Systems Biology (CSB) was established in 2007 as one of the five thematic interdisciplinary Centers at MGH. The Center is directed by Professor Ralph Weissleder, and is located on two floors in the new Simches Research Building. The mission of the Center is to analyze at a systems level how biological molecules, proteins and cells interact in both healthy and diseased states.

Through a multidisciplinary approach that combines clinical insight with powerful technologies, CSB faculty pursue systems-level research that is at once fundamental, and yet immediately linked to the diagnosis and treatment of human disease. While these approaches are generalizable to many diseases, the Center has particular strengths in complex human conditions such as cancer, cardiovascular disease, diabetes, autoimmune disease, and renal disease. This goal is enabled by particular faculty expertise in genomics, chemical biology, physiology, bioimaging, and nanotechnology.

The Center has close links with the HMS Department of Systems Biology, clinical departments at MGH, other MGH thematic centers, MIT, and the Broad Institute.

Recent Publications (more...)

Santo L, Hideshima T, Kung AL, Tseng JC, Tamang D, Yang M, Jarpe M, van Duzer JH, Mazitschek R, Ogier WC, Cirstea D, Rodig S, Eda H, Scullen T, Canavese M, Bradner J, Anderson KC, Jones SS, Raje N
Preclinical activity, pharmacodynamic and pharmacokinetic properties of a selective HDAC6 inhibitor, ACY-1215, in combination with bortezomib in multiple myeloma.
Blood. 2012;:ePub - PMID: 22262760
Ahfeldt T, Schinzel RT, Lee YK, Hendrickson D, Kaplan A, Lum DH, Camahort R, Xia F, Shay J, Rhee EP, Clish CB, Deo RC, Shen T, Lau FH, Cowley A, Mowrer G, Al-Siddiqi H, Nahrendorf M, Musunuru K, Gerszten RE, Rinn JL, Cowan CA
Programming human pluripotent stem cells into white and brown adipocytes.
Nat Cell Biol. 2012;:ePub - PMID: 22246346
Rauch PJ*, Chudnovskiy A*, Robbins CS*, Weber GF, Etzrodt M, Hilgendorf I, Tiglao E, Figueiredo JL, Iwamoto Y, Theurl I, Gorbatov R, Waring MT, Chicoine AT, Mouded M, Pittet MJ, Nahrendorf M, Weissleder R, Swirski FK
Innate Response Activator B Cells Protect Against Microbial Sepsis
Science. 2012;:ePub - PMID: 22245738
Wang L, Trebicka E, Fu Y, Ellenbogen S, Hong CC, Babitt JL, Lin HY, Cherayil BJ
The bone morphogenetic protein-hepcidin axis as a therapeutic target in inflammatory bowel disease.
Inflamm Bowel Dis. 2011;18(1):112-9 - PMID: 21351217 - PMCID: PMC3139830

Recent News (more...)

2012-01-12: "Surprising Cells Stymie Sepsis" - Science NOW features the latest paper from the Swirski Lab. It is also highlighted in Nature Reviews Immunology and selected to Faculty 1000.
2011-12-27: CSB paper "Dextran-Coated Iron Oxide Nanoparticles: A Versatile Platform for Targeted Molecular Imaging, Molecular Diagnostics, and Therapy" is #3 on the list of Most Read Articles in Accounts of Chemical Research.
2011-11-14: The MGH Center for Faculty Development is pleased to announce that Dennis Brown, PhD will assume the position of Director, Office for Research Career Development effective December 1, 2011
2011-10-28: "Stopping monocytes in their tracks" - CSB work is a Nature Reviews Immunology Highlight (pdf)
2011-10-27: MIT News features work of Mazitschek Group on microarray identification of small molecules that enhance synaptogenesis. (pdf)

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