Page 1 of 1

A Genomic Strategy for Each Patient? Sarcomas Are That Complex

Posted: Thu Dec 13, 2018 7:00 pm
by D.ap
“Although chemotherapy options for patients with sarcoma have expanded in recent months, efforts to advance treatment beyond a therapeutic plateau have long been hindered by a paucity of targetable genomic alterations and the rarity of these tumor types.

In the hopes of identifying new targets, researchers are focusing genomic sequencing studies on many different types of sarcomas. The insights gained have served to emphasize the significant heterogeneity and the unique molecular mechanisms underlying the development of these cancers. Moving forward may require the realization of truly individualized cancer therapy.
... to read the full story”

https://www.onclive.com/publications/on ... at-complex

Gene expression profiling of alveolar soft-part sarcoma

Posted: Thu Dec 13, 2018 7:28 pm
by D.ap
Background

Alveolar soft-part sarcoma (ASPS) is an extremely rare, highly vascular soft tissue sarcoma affecting predominantly adolescents and young adults. In an attempt to gain insight into the pathobiology of this enigmatic tumor, we performed the first genome-wide gene expression profiling study.

Methods

For seven patients with confirmed primary or metastatic ASPS, RNA samples were isolated immediately following surgery, reverse transcribed to cDNA and each sample hybridized to duplicate high-density human U133 plus 2.0 microarrays. Array data was then analyzed relative to arrays hybridized to universal RNA to generate an unbiased transcriptome. Subsequent gene ontology analysis was used to identify transcripts with therapeutic or diagnostic potential. A subset of the most interesting genes was then validated using quantitative RT-PCR and immunohistochemistry.

Results

Analysis of patient array data versus universal RNA identified elevated expression of transcripts related to angiogenesis (ANGPTL2, HIF-1 alpha, MDK, c-MET, VEGF, TIMP-2), cell proliferation (PRL, IGFBP1, NTSR2, PCSK1), metastasis (ADAM9, ECM1, POSTN) and steroid biosynthesis (CYP17A1 and STS). A number of muscle-restricted transcripts (ITGB1BP3/MIBP, MYF5, MYF6 and TRIM63) were also identified, strengthening the case for a muscle cell progenitor as the origin of disease. Transcript differentials were validated using real-time PCR and subsequent immunohistochemical analysis confirmed protein expression for several of the most interesting changes (MDK, c-MET, VEGF, POSTN, CYP17A1, ITGB1BP3/MIBP and TRIM63).

Conclusion

Results from this first comprehensive study of ASPS gene expression identifies several targets involved in angiogenesis, metastasis and myogenic differentiation. These efforts represent the first step towards defining the cellular origin, pathogenesis and effective treatment strategies for this atypical malignancy.


https://bmccancer.biomedcentral.com/art ... -2407-9-22