Aude Jary , Yongsoo Kim , Kirsten Rozemeijer , Paul P. Eijk , Ramon P. van der Zee , Maaike C.G. Bleeker , Saskia M. Wilting , Renske D.M. Steenbergen
{"title":"利用 mFAST-SeqS 方法准确检测 FFPE 样本中的拷贝数畸变。","authors":"Aude Jary , Yongsoo Kim , Kirsten Rozemeijer , Paul P. Eijk , Ramon P. van der Zee , Maaike C.G. Bleeker , Saskia M. Wilting , Renske D.M. Steenbergen","doi":"10.1016/j.yexmp.2024.104906","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>Shallow whole genome sequencing (Shallow-seq) is used to determine the copy number aberrations (CNA) in tissue samples and circulating tumor DNA. However, costs of NGS and challenges of small biopsies ask for an alternative to the untargeted NGS approaches. The mFAST-SeqS approach, relying on LINE-1 repeat amplification, showed a good correlation with Shallow-seq to detect CNA in blood samples. In the present study, we evaluated whether mFAST-SeqS is suitable to assess CNA in small formalin-fixed paraffin-embedded (FFPE) tissue specimens, using vulva and anal HPV-related lesions.</p></div><div><h3>Methods</h3><p>Seventy-two FFPE samples, including 36 control samples (19 vulva;17 anal) for threshold setting and 36 samples (24 vulva; 12 anal) for clinical evaluation, were analyzed by mFAST-SeqS. CNA in vulva and anal lesions were determined by calculating genome-wide and chromosome arm-specific z-scores in comparison with the respective control samples. Sixteen samples were also analyzed with the conventional Shallow-seq approach.</p></div><div><h3>Results</h3><p>Genome-wide z-scores increased with the severity of disease, with highest values being found in cancers. In vulva samples median and inter quartile ranges [IQR] were 1[0–2] in normal tissues (<em>n</em> = 4), 3[1–7] in premalignant lesions (<em>n</em> = 9) and 21[13–48] in cancers (<em>n</em> = 10). In anal samples, median [IQR] were 0[0–1] in normal tissues (<em>n</em> = 4), 14[6–38] in premalignant lesions (n = 4) and 18[9–31] in cancers (n = 4). At threshold 4, all controls were CNA negative, while 8/13 premalignant lesions and 12/14 cancers were CNA positive. CNA captured by mFAST-SeqS were mostly also found by Shallow-seq.</p></div><div><h3>Conclusion</h3><p>mFAST-SeqS is easy to perform, requires less DNA and less sequencing reads reducing costs, thereby providing a good alternative for Shallow-seq to determine CNA in small FFPE samples.</p></div>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2024-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S001448002400025X/pdfft?md5=d05099e109fc94865c7001cbe5c5f572&pid=1-s2.0-S001448002400025X-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Accurate detection of copy number aberrations in FFPE samples using the mFAST-SeqS approach\",\"authors\":\"Aude Jary , Yongsoo Kim , Kirsten Rozemeijer , Paul P. Eijk , Ramon P. van der Zee , Maaike C.G. Bleeker , Saskia M. Wilting , Renske D.M. Steenbergen\",\"doi\":\"10.1016/j.yexmp.2024.104906\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>Shallow whole genome sequencing (Shallow-seq) is used to determine the copy number aberrations (CNA) in tissue samples and circulating tumor DNA. However, costs of NGS and challenges of small biopsies ask for an alternative to the untargeted NGS approaches. The mFAST-SeqS approach, relying on LINE-1 repeat amplification, showed a good correlation with Shallow-seq to detect CNA in blood samples. In the present study, we evaluated whether mFAST-SeqS is suitable to assess CNA in small formalin-fixed paraffin-embedded (FFPE) tissue specimens, using vulva and anal HPV-related lesions.</p></div><div><h3>Methods</h3><p>Seventy-two FFPE samples, including 36 control samples (19 vulva;17 anal) for threshold setting and 36 samples (24 vulva; 12 anal) for clinical evaluation, were analyzed by mFAST-SeqS. CNA in vulva and anal lesions were determined by calculating genome-wide and chromosome arm-specific z-scores in comparison with the respective control samples. Sixteen samples were also analyzed with the conventional Shallow-seq approach.</p></div><div><h3>Results</h3><p>Genome-wide z-scores increased with the severity of disease, with highest values being found in cancers. In vulva samples median and inter quartile ranges [IQR] were 1[0–2] in normal tissues (<em>n</em> = 4), 3[1–7] in premalignant lesions (<em>n</em> = 9) and 21[13–48] in cancers (<em>n</em> = 10). In anal samples, median [IQR] were 0[0–1] in normal tissues (<em>n</em> = 4), 14[6–38] in premalignant lesions (n = 4) and 18[9–31] in cancers (n = 4). At threshold 4, all controls were CNA negative, while 8/13 premalignant lesions and 12/14 cancers were CNA positive. 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Accurate detection of copy number aberrations in FFPE samples using the mFAST-SeqS approach
Background
Shallow whole genome sequencing (Shallow-seq) is used to determine the copy number aberrations (CNA) in tissue samples and circulating tumor DNA. However, costs of NGS and challenges of small biopsies ask for an alternative to the untargeted NGS approaches. The mFAST-SeqS approach, relying on LINE-1 repeat amplification, showed a good correlation with Shallow-seq to detect CNA in blood samples. In the present study, we evaluated whether mFAST-SeqS is suitable to assess CNA in small formalin-fixed paraffin-embedded (FFPE) tissue specimens, using vulva and anal HPV-related lesions.
Methods
Seventy-two FFPE samples, including 36 control samples (19 vulva;17 anal) for threshold setting and 36 samples (24 vulva; 12 anal) for clinical evaluation, were analyzed by mFAST-SeqS. CNA in vulva and anal lesions were determined by calculating genome-wide and chromosome arm-specific z-scores in comparison with the respective control samples. Sixteen samples were also analyzed with the conventional Shallow-seq approach.
Results
Genome-wide z-scores increased with the severity of disease, with highest values being found in cancers. In vulva samples median and inter quartile ranges [IQR] were 1[0–2] in normal tissues (n = 4), 3[1–7] in premalignant lesions (n = 9) and 21[13–48] in cancers (n = 10). In anal samples, median [IQR] were 0[0–1] in normal tissues (n = 4), 14[6–38] in premalignant lesions (n = 4) and 18[9–31] in cancers (n = 4). At threshold 4, all controls were CNA negative, while 8/13 premalignant lesions and 12/14 cancers were CNA positive. CNA captured by mFAST-SeqS were mostly also found by Shallow-seq.
Conclusion
mFAST-SeqS is easy to perform, requires less DNA and less sequencing reads reducing costs, thereby providing a good alternative for Shallow-seq to determine CNA in small FFPE samples.
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