For example, up to 36 different isoforms of the Wilms tumor gene 1 have been identified with specific variants specifically upregulated in acute and chronic myeloid leukemias, suggesting
key functions in cancer initiation and/or progression [43] and [44]. Similarly, isoforms of vascular endothelial growth factor exhibit distinct functional activities in tumor angiogenesis that vary on the basis of anatomic site, emphasizing the importance of tumor environments on isoforms [45], [46] and [47]. In addition to conferring unique functions to cancer cells and tumor environments, alternative Target Selective Inhibitor Library cell line splicing offers a rich source of potential prognostic and predictive biomarkers. Biomarkers and targeted therapies based on alternative splicing may have a higher likelihood for success than conventional approaches centered on a whole gene or protein. Collectively, these studies highlight the clinical relevance of identifying disease-associated changes in alternative splicing. Prior research has established central functions of CXCL12 in cancer growth and metastasis, but very few studies have investigated
isoforms of CXCL12 in cancer. In renal cell carcinoma, an analysis limited www.selleckchem.com/products/sd-208.html to CXCL12-α and -β revealed that only the β isoform correlated with tumor grade and infiltration of CD8 T cells [48]. CXCL12-β also was upregulated in bladder cancer, a disease in which expression of this isoform predicted metastasis and disease-specific mortality [49]. This study of bladder cancer also showed that amounts of CXCL12-α did not change between normal and malignant tissues, while CXCL12-γ was undetectable. Neither these studies nor any others have investigated the other three CXCL12 isoforms (δ, ε, or φ) in cancer due to the lack of antibodies against these isoforms and limitations in high throughput technology. Next-generation sequencing allows our study to fill notable GNE-0877 gaps in knowledge about the CXCL12/CXCR4/CXCR7 pathway by providing
the first characterization of expression levels of all known alternative splicing variants of CXCL12 in breast cancer or any other malignancy. We found that primary human breast cancers express four different isoforms of CXCL12 in rank order of α > β > γ > δ, while ε and φ essentially were undetectable in the TCGA breast cancer samples. Expression of CXCL12 isoforms varied significantly across many different clinical and molecular categories of breast cancer, including stage, histologic type, intrinsic molecular subtype, and hormone receptor status. Changes in abundance of transcripts typically occurred in parallel for each CXCL12 isoform as would be expected for an mRNA regulated by the same common promoter elements. We also discovered lower levels of CXCL12 transcripts in subtypes of breast cancer regarded as more aggressive, such as triple negative and Her2 amplified, and with progression to higher stage.