Alveolar Soft Part Sarcomas: Molecular Pathogenesis and Implications for Novel Targeted Therapies

Treatment of bone metastases.
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D.ap
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Alveolar Soft Part Sarcomas: Molecular Pathogenesis and Implications for Novel Targeted Therapies

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Abstract

Alveolar soft part sarcoma (ASPS) is a very rare soft tissue sarcoma which arises primarily in children and young adults. Despite its unique histology and well-characterized genetic translocation, many questions remain regarding the pathogenesis and treatment of this tumor type. Though collective clinical experience with this tumor type spans more than 60 years, there has been little progress made in treating this uncommon but frequently fatal disease. This paper focuses on the available data regarding its molecular pathogenesis and insights into targeted therapeutics as well as the results of clinical trials performed to date to hopefully improve the outcome of patients with this rare malignancy.


https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3337503/
Debbie
D.ap
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Re: Alveolar Soft Part Sarcomas: Molecular Pathogenesis and Implications for Novel Targeted Therapies

Post by D.ap »

The MITF gene provides instructions for making a protein called melanocyte inducing transcription factor. This protein plays a role in the development, survival, and function of certain types of cells. To carry out this role, the protein attaches to specific areas of DNA and helps control the activity of particular genes. On the basis of this action, the protein is called a transcription factor.

Melanocyte inducing transcription factor helps control the development and function of pigment-producing cells called melanocytes. Within these cells, this protein controls production of the pigment melanin, which contributes to hair, eye, and skin color. Melanocytes are also found in the inner ear and play an important role in hearing. Additionally, melanocyte inducing transcription factor regulates the development of specialized cells in the eye called retinal pigment epithelial cells. These cells nourish the retina, the part of the eye that detects light and color. Some research indicates that melanocyte inducing transcription factor also regulates the development of cells that break down and remove bone (osteoclasts) and cells that play a role in allergic reactions (mast cells).

The structure of melanocyte inducing transcription factor includes three critically important regions. Two of the regions, called the helix-loop-helix motif and the leucine-zipper motif, are critical for protein interactions. These motifs allow molecules of melanocyte inducing transcription factor to interact with each other or with other proteins that have a similar structure, creating a two-protein unit (dimer) that functions as a transcription factor. The other region, known as the basic motif, binds to specific areas of DNA, allowing the dimer to control gene activity.
Debbie
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