Division of Human Immunology, IMVS

The elucidation of the molecular mechanisms involved may permit the specific targeting of this pathway in conditions such as leukaemia where inappropriate survival of leukaemic cells frustrates current forms of therapy.

In collaboration with the laboratory of Professor Michael Parker (St Vincent's Institute of Medical Research, Melbourne), we are seeking to determine the 3-D structure of the GM-CSF complexed to its receptor. This information will be utilized to understand how the GM-CSF signals and for the rational design of novel receptor agonists and antagonists.

We are currently mapping the molecular events involved in GM-CSF-mediated stimulation of cell survival. We are following on from our discovery that nM concentrations of cytokine leads to serine phosphorylation of the receptor, 14-3-3 recruitment and activation of "cell survival-only" to map in detail this novel signaling pathway (in collaboration with Paul Ekert, Royal Children's Hospital, Melbourne). The Cytokine Receptor Laboratory investigates the mechanisms by which cytokines such as GM-CSF, IL-3 and IL-5 engage their receptors leading to the activation of multiple biological functions. The overall aim is to discover novel paradigms in cytokine signaling and use these insight in the development of novel therapeutics.

Cytokine receptor signaling resulting in multiple biological activities is a complex process that involves the recruitment of distinct signaling molecules and their assembly into a functional signosome. We are studying the molecular determinants of these interactions and their regulation by cytokine concentrations and duration of stimulation. Defining how cytokine receptor signaling is organized should help understand the molecular basis of pleiotropy and specificity.

Low cycling self-renewing leukaemic stem cells represent a major impediment to long lasting therapies for many types of leukaemia. We have developed a unique antibody that targets the IL-3 receptor a chain which is over-expressed in leukaemic progenitor cells, and we are assessing its activity on stem cell function. In parallel, we are investigating the role of the
IL-3Ra chain itself on stem cell biological activities and the underlying mechanisms that control its expression.

We have previously shown that 14-3-3 proteins directly couple cytokine receptors to distinct signaling complex that regulate key biological functions such as cell survival. In an effort to understand the global role of the 14-3-3 family of proteins, we have now knocked out 14-3-3 zeta in mice and we are studying the role of this protein in vitro and in vivo.

Mast cells have long been recognized as active participants of the allergic response at specific sites. Whether in the skin or the lung, the binding and cross-linking of IgE on the surface of mast cells stimulate the release of inflammatory mediators that exacerbate the allergic response. However, our recent data (Grimbaldeston et al, 2007) indicates that mast cells can also dampen the allergic response. This unexpected new role of mast cells is mediated by IL-10. Current experiments are exploring the underlying regulation of IL-10 production in mast cells and stimuli other than IgE cross-linking that lead to IL-10 production.

Guthridge MA, Barry EF, Felquer FA, McClure BJ, Stomski FC, Ramshaw H and LOPEZ AF. The phosphoserine-585-dependent pathway of the GM-CSF/IL-3/IL-5 receptors mediates hematopoietic cell survival through activation of NF-kB and induction of bcl-2. Blood 103:820-827, 2004.
Thomas D, Vadas M and LOPEZ A. Regulation of Haematopoiesis by Growth Factors – Emerging Insights and Therapies. Expert Opinion on Biological Therapy 4(5): 1-11, 2004.
Thomas D, Guthridge M, Woodcock J, and LOPEZ A. 14-3-3 Protein Signaling in Development and Growth Factor Responses. Current Topics in Developmental Biology 67:285-303, 2005.
Ma Y, Pitson S, Hercus T, Murphy J, LOPEZ A, and Woodcock J. Sphingosine activates protein kinase A type II by a novel cAMP-independent mechanism. J Biol Chem 280(28):26011-26017, 2005.
Guthridge MA, JA Powell, EF Barry, FC Stomski, BJ McClure, H Ramshaw, FA Felquer, M Dottore, DT Thomas, B To, CG Begley and AF LOPEZ. Growth factor pleiotropy is controlled by a receptor Tyr/Ser motif that acts as a binary switch. EMBO J 25:479-489, 2006.
Holland J, M Kochetkova, M Dottore, A LOPEZ and S McColl. Differential functional activation of chemokine receptor CXCR4 is mediated by G proteins in breast cancer cells. Cancer Research 66:4417-4124, 2006.
Guthridge MA and LOPEZ AF. Phosphotyrosine/phosphoserine binary switches: a new paradigm for the regulation of P13K signalling and growth factor pleiotropy? Biochemical Society Transactions 35:250-252, 2007.
Ramshaw HS, MA Guthridge, FC Stomski, EF Barry, L Ooms, CA Mitchell, CG Begley and AF LOPEZ. The Shc binding site of the bc subunit of the GM-CSF/IL-3/IL-5 receptors is a negative regulator of hematopoiesis. Blood 110(10):3582-90, 2007.
MA Grimbaldeston, S Nakae, J Kalesnikoff, M Tsai and SJ Galli. Mast cell-derived IL-10 limits skin pathology in contact dermatitis and chronic UVB irradiation. Nature Immunology 8:1095-104, 2007.
Asquith KL, Ramshaw HS, Hansbro PM, Beagley KW, LOPEZ AF, Foster PS. The IL-3/ IL-5/GM-CSF Common b Receptor plays a pivotal role in the regulation of Th2 Immunity and Allergic Airway Inflammation. J Immunol 180:1199-1206, 2008.
Mu F-T, RK Andrews, JF Arthur, AD Munday, SL Cranmer, SP Jackson, FC Stomski, AF LOPEZ and MC Berndt. A functional 14-3-3z-independent association of PI-3 kinase with glycoprotein Iba, the major ligand-binding subunit of the platelet glycoprotein Ib-IX-V complex. Blood 111(9):4580-87, 2008.