Dan Frumkin scite author profile

What is the lineage relation among the cells of an organism? The answer is sought by developmental biology, immunology, stem cell research, brain research, and cancer research, yet complete cell lineage trees have been reconstructed only for simple organisms such as Caenorhabditis elegans. We discovered that somatic mutations accumulated during normal development of a higher organism implicitly encode its entire cell lineage tree with very high precision. Our mathematical analysis of known mutation rates in microsatellites (MSs) shows that the entire cell lineage tree of a human embryo, or a mouse, in which no cell is a descendent of more than 40 divisions, can be reconstructed from information on somatic MS mutations alone with no errors, with probability greater than 99.95%. Analyzing all ~1.5 million MSs of each cell of an organism may not be practical at present, but we also show that in a genetically unstable organism, analyzing only a few hundred MSs may suffice to reconstruct portions of its cell lineage tree. We demonstrate the utility of the approach by reconstructing cell lineage trees from DNA samples of a human cell line displaying MS instability. Our discovery and its associated procedure, which we have automated, may point the way to a future “Human Cell Lineage Project” that would aim to resolve fundamental open questions in biology and medicine by reconstructing ever larger portions of the human cell lineage tree.

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DNA methylation-based forensic tissue identification

Frumkin

Wasserstrom

Budowle

et al. 2011

Forensic Science International: Genetics

166

112

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tBID Homooligomerizes in the Mitochondrial Membrane to Induce Apoptosis

Grinberg

Sarig

Zaltsman

et al. 2002

Journal of Biological Chemistry

142

101

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Cell Lineage Analysis of a Mouse Tumor

Frumkin

Wasserstrom

Itzkovitz

et al. 2008

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Revealing the lineage relations among cancer cells can shed light on tumor growth patterns and metastasis formation, yet cell lineages have been difficult to come by in the absence of a suitable method. We previously developed a method for reconstructing cell lineage trees from genomic variability caused by somatic mutations. Here, we apply the method to cancer and reconstruct, for the first time, a lineage tree of neoplastic and adjacent normal cells obtained by laser microdissection from tissue sections of a mouse lymphoma. Analysis of the reconstructed tree reveals that the tumor initiated from a single founder cell, f5 months before diagnosis, that the tumor grew in a physically coherent manner, and that the average number of cell divisions accumulated in cancerous cells was almost twice than in adjacent normal lung epithelial cells but slightly less than the expected figure for normal B lymphocytes. The cells were also genotyped at the TP53 locus, and neoplastic cells were found to share a common mutation, which was most likely present in a heterozygous state. Our work shows that the ability to obtain data regarding the physical appearance, precise anatomic position, genotypic profile, and lineage position of single cells may be useful for investigating cancer development, progression, and interaction with the microenvironment. [Cancer Res 2008;68(14):5924-31]

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Amplification of multiple genomic loci from single cells isolated by laser micro-dissection of tissues

et al. 2008

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Background: Whole genome amplification (WGA) and laser assisted micro-dissection represent two recently developed technologies that can greatly advance biological and medical research. WGA allows the analysis of multiple genomic loci from a single genome and has been performed on single cells from cell suspensions and from enzymatically-digested tissues. Laser microdissection makes it possible to isolate specific single cells from heterogeneous tissues.

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Dan Frumkin

Genomic Variability within an Organism Exposes Its Cell Lineage Tree

DNA methylation-based forensic tissue identification

tBID Homooligomerizes in the Mitochondrial Membrane to Induce Apoptosis

Cell Lineage Analysis of a Mouse Tumor

Amplification of multiple genomic loci from single cells isolated by laser micro-dissection of tissues

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