BACKGROUND & AIMS: It is a challenge to determine the dynamics of stem cells within human epithelial tissues such as colonic crypts. By tracking methylation patterns of nonexpressed genes, we have been able to determine how rapidly individual stem cells became dominant within a human colonic crypt. We also analyzed methylation patterns to study clonal expansion of entire crypts via crypt fission. METHODS: Colonic mucosa was obtained from 9 patients who received surgery for colorectal cancer. The methylation patterns of Cardiac-specific homeobox, Myoblast determination protein 1, and Biglycan were examined within clonal cell populations, comprising either part of, or multiple adjacent, normal human colonic crypts. Clonality was demonstrated by following cytochrome c oxidase-deficient (CCO⁻) cells that shared an identical somatic point mutation in mitochondrial DNA. RESULTS: Methylation pattern diversity among CCO⁻ clones that occupied only part of a crypt was proportional to clone size; this allowed us to determine rates of clonal expansion. Analysis indicated a slow rate of niche succession within the crypt. The 2 arms of bifurcating crypts had distinct methylation patterns, indicating that fission can disrupt epigenetic records of crypt ancestry. Adjacent clonal CCO⁻ crypts usually had methylation patterns as dissimilar to one another as methylation patterns of 2 unrelated crypts. Mathematical models indicated that stem cell dynamics and epigenetic drift could account for observed dissimilarities in methylation patterns. CONCLUSIONS: Methylation patterns can be analyzed to determine the rates of recent clonal expansion of stem cells, but determination of clonality over many decades is restricted by epigenetic drift. We developed a technique to follow changes in intestinal stem cell dynamics in human epithelial tissues that might be used to study premalignant disease.
BACKGROUND & AIMS: It is a challenge to determine the dynamics of stem cells within human epithelial tissues such as colonic crypts. By tracking methylation patterns of nonexpressed genes, we have been able to determine how rapidly individual stem cells became dominant within a human colonic crypt. We also analyzed methylation patterns to study clonal expansion of entire crypts via crypt fission. METHODS: Colonic mucosa was obtained from 9 patients who received surgery for colorectal cancer. The methylation patterns of Cardiac-specific homeobox, Myoblast determination protein 1, and Biglycan were examined within clonal cell populations, comprising either part of, or multiple adjacent, normal human colonic crypts. Clonality was demonstrated by following cytochrome c oxidase-deficient (CCO⁻) cells that shared an identical somatic point mutation in mitochondrial DNA. RESULTS: Methylation pattern diversity among CCO⁻ clones that occupied only part of a crypt was proportional to clone size; this allowed us to determine rates of clonal expansion. Analysis indicated a slow rate of niche succession within the crypt. The 2 arms of bifurcating crypts had distinct methylation patterns, indicating that fission can disrupt epigenetic records of crypt ancestry. Adjacent clonal CCO⁻ crypts usually had methylation patterns as dissimilar to one another as methylation patterns of 2 unrelated crypts. Mathematical models indicated that stem cell dynamics and epigenetic drift could account for observed dissimilarities in methylation patterns. CONCLUSIONS: Methylation patterns can be analyzed to determine the rates of recent clonal expansion of stem cells, but determination of clonality over many decades is restricted by epigenetic drift. We developed a technique to follow changes in intestinal stem cell dynamics in human epithelial tissues that might be used to study premalignant disease.
Authors: Danielle Langeveld; Marnix Jansen; D V de Boer; Mariska van Sprundel; Lodewijk A A Brosens; Folkert H Morsink; Francis M Giardiello; G Johan A Offerhaus; Wendy W J de Leng Journal: Gut Date: 2011-09-22 Impact factor: 23.059
Authors: John B Kisiel; Megan M Garrity-Park; William R Taylor; Thomas C Smyrk; David A Ahlquist Journal: Inflamm Bowel Dis Date: 2013-09 Impact factor: 5.325