Details:

Alternative Title:
BMC Med Genomics
Personal Author:
Campo, David S. ; Nayak, Vishal ; Srinivasamoorthy, Ganesh ; Khudyakov, Yury
Campo, David S. ; Nayak, Vishal ; Srinivasamoorthy, Ganesh ; Khudyakov, Yury Less -
Description:
Background

Ultra-Deep Sequencing (UDS) enabled identification of specific changes in human genome occurring in malignant tumors, with current approaches calling for the detection of specific mutations associated with certain cancers. However, such associations are frequently idiosyncratic and cannot be generalized for diagnostics. Mitochondrial DNA (mtDNA) has been shown to be functionally associated with several cancer types. Here, we study the association of intra-host mtDNA diversity with Hepatocellular Carcinoma (HCC).

Results

UDS mtDNA exome data from blood of patients with HCC (n = 293) and non-cancer controls (NC, n = 391) were used to: (i) measure the genetic heterogeneity of nucleotide sites from the entire population of intra-host mtDNA variants rather than to detect specific mutations, and (ii) apply machine learning algorithms to develop a classifier for HCC detection. Average total entropy of HCC mtDNA is 1.24-times lower than of NC mtDNA (p = 2.84E-47). Among all polymorphic sites, 2.09% had a significantly different mean entropy between HCC and NC, with 0.32% of the HCC mtDNA sites having greater (p < 0.05) and 1.77% of the sites having lower mean entropy (p < 0.05) as compared to NC. The entropy profile of each sample was used to further explore the association between mtDNA heterogeneity and HCC by means of a Random Forest (RF) classifier The RF-classifier separated 232 HCC and 232 NC patients with accuracy of up to 99.78% and average accuracy of 92.23% in the 10-fold cross-validation. The classifier accurately separated 93.08% of HCC (n = 61) and NC (n = 159) patients in a validation dataset that was not used for the RF parameter optimization.

Conclusions

Polymorphic sites contributing most to the mtDNA association with HCC are scattered along the mitochondrial genome, affecting all mitochondrial genes. The findings suggest that application of heterogeneity profiles of intra-host mtDNA variants from blood may help overcome barriers associated with the complex association of specific mutations with cancer, enabling the development of accurate, rapid, inexpensive and minimally invasive diagnostic detection of cancer.


Subjects:
[+]
Entropy Liquid Biopsy Machine Learning Mitochondria Research
Source:
BMC Med Genomics. 12(Suppl 4)
Pubmed ID:
31167647
Pubmed Central ID:
PMC6551242
Document Type:
Journal Article
Collection(s):
CDC Public Access
Main Document Checksum:
[+]
urn:sha256:f192ac92decfb313b6ed34e0c36b0a5e28e587059a51c163015cf1abbd9fb7c4
Download URL:
https://stacks.cdc.gov/view/cdc/79712/cdc_79712_DS1.pdf
File Type:

Supporting Files

• 	12920_2019_506_Fig4_HTML.jpg	jpeg
  	12920_2019_506_Fig5_HTML.gif	gif
  	12920_2019_506_Fig5_HTML.jpg	jpeg
  	12920_2019_506_Fig6_HTML.gif	gif
  	12920_2019_506_Fig6_HTML.jpg	jpeg
  	12920_2019_Article_506.nxml	xml
  	12920_2019_506_Article_Equa.gif	gif
  	12920_2019_506_Fig1_HTML.gif	gif
  	12920_2019_506_Fig1_HTML.jpg	jpeg
  	12920_2019_506_Fig2_HTML.gif	gif
  	12920_2019_506_Fig2_HTML.jpg	jpeg
  	12920_2019_506_Fig3_HTML.gif	gif
  	12920_2019_506_Fig3_HTML.jpg	jpeg
  	12920_2019_506_Fig4_HTML.gif	gif

More +