Your search keyword '"Kurywchak P"' showing total 6 results

1. The emerging roles of exosomes in the modulation of immune responses in cancer

Author

Kurywchak, Paul, Tavormina, Jena, and Kalluri, Raghu

Published

2018

2. FN14 expression correlates with MET in NSCLC and promotes MET-driven cell invasion

Author

Whitsett, Timothy G., Fortin Ensign, Shannon P., Dhruv, Harshil D., Inge, Landon J., Kurywchak, Paul, Wolf, Kerri K., LoBello, Janine, Kingsley, Christopher B., Allen, Jeffrey W., Weiss, Glen J., and Tran, Nhan L.

Published

2014

3. Detection of mutant KRAS and TP53 DNA in circulating exosomes from healthy individuals and patients with pancreatic cancer

Author

Yang, Sujuan, Che, Sara P. Y., Kurywchak, Paul, Tavormina, Jena L., Gansmo, Liv B., Correa de Sampaio, Pedro, Tachezy, Michael, Bockhorn, Maximilian, Gebauer, Florian, Haltom, Amanda R., Melo, Sonia A., LeBleu, Valerie S., and Kalluri, Raghu

Abstract

ABSTRACTPancreatic cancer presents with a dismal mortality rate and is in urgent need of methods for early detection with potential for timely intervention. All living cells, including cancer cells, generate exosomes. We previously discovered double stranded genomic DNA in exosomes derived from the circulation of pancreatic cancer patients, which enabled the detection of prevalent mutations associated with the disease. Here, we report a proof-of-concept study that demonstrates the potential clinical utility of circulating exosomal DNA for identification of KRASG12Dand TP53R273Hmutations in patients with pancreas-associated pathologies, including pancreatic ductal adenocarcinoma (PDAC), chronic pancreatitis (CP) and intraductal papillary mucinous neoplasm (IPMN), and in healthy human subjects. In 48 clinically annotated serum samples from PDAC patients, digital PCR analyses of exosomal DNA identified KRASG12Dmutation in 39.6% of cases, and TP53R273Hmutation in 4.2% of cases. KRASG12Dand TP53R273Hmutations were also detected in exosomal DNA from IPMN patients (2 out of 7 with KRASG12D, one of which also co-presented with TP53R273Hmutation). Circulating exosomal DNA in 5 out of 9 CP patients enabled the detection of KRASG12Dmutation. In 114 healthy subject-derived circulating exosomal DNA, 2.6% presented with KRASG12Dmutation and none with TP53R273Hmutation. This study highlights the value of circulating exosomal DNA for a rapid, low-cost identification of cancer driving mutations. The identification of mutations in IPMN patients and healthy subjects suggests that liquid biopsies may allow potential assessment of cancer risk but with a cautionary note that detection of clinical cancer cannot be assumed.

Published

2017

4. An evolving function of DNA-containing exosomes in chemotherapy-induced immune response

Author

Kurywchak, Paul and Kalluri, Raghu

Abstract

Chemotherapy is a predominant strategy to treat cancer and is often associated with toxicities like severe diarrhea that puts patients at additional risk and can hinder treatment strategies. Lian et al. recently explored the immune-mediated mechanisms of Irinotecan-induced diarrhea in colorectal cancer and found that double-stranded DNA in small vesicles can launch inflammation pathways in immune cells through the cytosolic DNA sensor AIM2.

Published

2017

5. Unique somatic variants in DNA from urine exosomes of individuals with bladder cancer.

Author

Zhou X, Kurywchak P, Wolf-Dennen K, Che SPY, Sulakhe D, D'Souza M, Xie B, Maltsev N, Gilliam TC, Wu CC, McAndrews KM, LeBleu VS, McConkey DJ, Volpert OV, Pretzsch SM, Czerniak BA, Dinney CP, and Kalluri R

Abstract

Bladder cancer (BC), a heterogeneous disease characterized by high recurrence rates, is diagnosed and monitored by cystoscopy. Accurate clinical staging based on biopsy remains a challenge, and additional, objective diagnostic tools are needed urgently. We used exosomal DNA (exoDNA) as an analyte to examine cancer-associated mutations and compared the diagnostic utility of exoDNA from urine and serum of individuals with BC. In contrast to urine exosomes from healthy individuals, urine exosomes from individuals with BC contained significant amounts of DNA. Whole-exome sequencing of DNA from matched urine and serum exosomes, bladder tumors, and normal tissue (peripheral blood mononuclear cells) identified exonic and 3' UTR variants in frequently mutated genes in BC, detectable in urine exoDNA and matched tumor samples. Further analyses identified somatic variants in driver genes, unique to urine exoDNA, possibly because of the inherent intra-tumoral heterogeneity of BC, which is not fully represented in random small biopsies. Multiple variants were also found in untranslated portions of the genome, such as microRNA (miRNA)-binding regions of the KRAS gene. Gene network analyses revealed that exoDNA is associated with cancer, inflammation, and immunity in BC exosomes. Our findings show utility of exoDNA as an objective, non-invasive strategy to identify novel biomarkers and targets for BC., Competing Interests: MD Anderson Cancer Center and R.K. hold patents in the area of exosome biology and are licensed to Codiak Biosciences Inc. MD Anderson Cancer Center and R.K. are stock equity holders in Codiak Biosciences Inc. R.K. receives research support from Codiak Biosciences Inc. and serves as a member of the board of directors. V.S.L. served as a paid consultant for Codiak Biosciences Inc., (© 2021 The Authors.)

Published

2021

6. Elucidating potentially significant genomic regions involved in the initiation and progression of undifferentiated pleomorphic sarcoma.

Author

Kurywchak P, Kiefer J, Lenkiewicz E, Evers L, Holley T, Barrett M, and Weiss GJ

Abstract

Sarcomas are cancers that arise in soft tissues or bone and make up a small percentage of malignancies. In an effort to identify potential genetic targets for therapy, this study explores the genomic landscape of a metastatic undifferentiated pleomorphic sarcoma (UPS) with spindle cell morphology. Thick sections (50 µm) of formalin-fixed, paraffin-embedded tissue from a primary, recurrent, and metastatic tumor were collected and processed from a single patient for DNA content-based flow-sorting and analyses. Nuclei of diploid and aneuploid populations were sorted from the malignant tissues and their genomes interrogated with array comparative genomic hybridization. The third sample was highly degraded and did not contain any intact ploidy peaks in our flow assays. A 2.5N aneuploid population was identified in the primary and recurrent sample. We detected a series of shared and unique genomic aberrations in the sorted aneuploid populations. The patterns of aberrations suggest that two similar but independent clonal populations arose during the clinical history of this rare tumor. None of these aberrations were detected in the matching sorted diploid samples. The targeted regions of interest might play a role in UPS and may lead to clinical significance with further investigation.

Published

2013