N Theise scite author profile

The standard paradigm of embryologic development and adult tissue reconstitution posits unidirectional, hierarchical lineages. The presumed mechanisms underlying these differentiative pathways are gene restrictions, such as methylation and heterochromatin formation, which are commonly described as irreversible. However, recent discoveries regarding multi-organ stem cells demonstrate that 'true plasticity' exists, with cells of one organ turning into cells of other organs, including differentiative transformations that cross barriers between tissues derived from different primitive germ layers. These findings, along with earlier experiments into heterokaryon formation and longstanding recognition of reactive and neoplastic lesions in humans and animals, suggest that lineage pathways are not, in fact, unidirectional. Moreover, physiologic mechanisms of reversal of gene restrictions have been recognized. Therefore, in response to these observations, we suggest a new paradigm of cell plasticity, elucidating three guiding principles of 'genomic completeness', 'uncertainty of cell characterization', and 'stochastic nature of cell origins and fates'. These principles imply a change in the way data can be interpreted and could alter subsequent hypothesis formation. This new paradigm will hopefully lead us forward to a more flexible and creative exploration of the potential of adult vertebrate cells.

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Understanding cell lineages as complex adaptive systems

Theise

2004

Blood Cells, Molecules, and Diseases

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Postmodern Biology: (Adult) (Stem) Cells Are Plastic, Stochastic, Complex, and Uncertain

Theise

Harris

2006

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Cirrhosis and hepatocellular neoplasia: More like cousins than like parent and child

Theise¹

1996

Gastroenterology

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A macroregenerative nodule containing multiple foci of hepatocellular carcinoma in a noncirrhotic liver

Theise

1993

Hepatology

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We report an incidental small hepatocellular carcinoma in a patient with chronic hepatitis C infection without cirrhosis. The existence of portal triads and the Meyenburg complexes within the lesion and atypical subnodules suggests that the carcinoma has arisen in the context of a macroregenerative nodule rather than the whole nodule being an early, spreading carcinoma. A growing body of evidence supports macroregenerative nodules as being precursor lesions in the development of hepatocellular carcinoma. Although they are generally thought of as being large cirrhotic nodules, this case suggests that they may be lesions that develop in the context of chronic liver disease, parallel to, but independently of, cirrhosis. Moreover, the development of carcinoma within the nodule suggests that macroregenerative nodules may play a role in carcinogenesis in noncirrhotic livers.

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N Theise

Toward a new paradigm of cell plasticity

Understanding cell lineages as complex adaptive systems

Postmodern Biology: (Adult) (Stem) Cells Are Plastic, Stochastic, Complex, and Uncertain

Cirrhosis and hepatocellular neoplasia: More like cousins than like parent and child

A macroregenerative nodule containing multiple foci of hepatocellular carcinoma in a noncirrhotic liver

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