Biotech Strategy Blog

Commentary on Science, Innovation & New Products with a focus on Oncology, Hematology & Cancer Immunotherapy

Posts tagged ‘IGF-1 signaling’

Continuing our series on the ASCO GI meeting, today marks the end of the conference coverage with an interesting look at overcoming resistance to EGFR therapies such as Erbitux and Vectibix.

One of the hallmarks of EGFR monotherapy in colorectal cancer is stable disease with eventual relapse, but few dramatic responses. This suggests that other factors may play a role in driving oncogenic activity.

Dr Tejpar, Leuven

Dr Tejpar, Leuven

Recently, patient derived xenografts (PDX) have begun to play an increasingly important role in helping to understand the biology of the disease and facilitate improved trial design.

Earlier this week, we discussed the molecular characterisation of the disease based on the keynote talk by Dr Sabine Tejpar. Her group in Belgium as well as others in Italy and Spain have been very active in European translational work in this area to identify and map the pathways influencing EGFR therapy in GI cancers.

What can we learn from the latest findings in this space?

The answer may well surprise you.

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Bone is a tissue in constant state of remodeling by osteoclasts (cells responsible for bone resorption) and osteoblasts (cells responsible for new bone formation).

Osteoporosis is a disease of progressive bone loss that is associated with increase risk of fractures.  Particularly debilitating are hip fractures in the elderly that are costly to treat and also lead to increased death and reduction in quality of life.  It’s estimated that osteoporosis affects 44 million people in the United States over the age of 50.

Most treatments for osteoporosis inhibit bone resorption e.g. bisphosphonates (alendronate, risedronate, ibandronate, zoledronic acid).  By inhibiting or reducing bone resorption, there is a lower amount of bone loss.

Recent research published in the November 2011 issue of the journal Nature Medicine has highlighted a new potential target for osteoporosis drug development that acts on osteoblasts and promotes bone formation.

In a series of elegant experiments, Takako Negishi-Koga and colleagues found that osteoclast-derived Semaphorin 4D (Sema4D) inhibits bone formation.

They found that the transmembrane protein Sema4D is expressed by osteoclasts and inhibits osteoblastic bone formation. In other words, Sema4D is a critical mediator of osteclast-osteoblast communication. 

They reported that:

In osteoblastic cells, Sema4D stimulation decreased the expression of cadherin-11 at the cell-cell contact region suggesting that Sema4D stimulates cell motility through an impairment of cell-cell adhesion, which in turn results in the reduction in bone-forming activity.

Osteoclast-derived Sema4D inhibits bone formation: 

The binding of Sema4D to its receptor Plexin-B1 on osteoblasts resulted in the activation of the small GTPase RhoA, which inhibits bone formation by suppressing insulin-like growth factor-1 (IGF-1) signaling and by modulating osteoblast motility. 

The implication of these findings is that blocking Sema4D could promote osteoblastic bone formation without affecting osteoclastic bone resorption.  The researchers successfully tested this hypothesis using an antibody to Sema4D.

They concluded that:

These results suggest that the blocking Sema4D–Plexin-B1 interaction is a new and potentially effective strategy for increasing bone formation in humans.

This preclinical work using an animal model is highly promising and suggests that as we learn more about the bone microenvironment, new therapeutic and molecular targets for drug development may emerge.

ResearchBlogging.orgNegishi-Koga, T., Shinohara, M., Komatsu, N., Bito, H., Kodama, T., Friedel, R., & Takayanagi, H. (2011). Suppression of bone formation by osteoclastic expression of semaphorin 4D Nature Medicine, 17 (11), 1473-1480 DOI: 10.1038/nm.2489

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