Lisa Sudmeier scite author profile

Adult stem cells define a cellular reserve with the unique capacity to replenish differentiated cells of a tissue throughout an organism's lifetime. Previous analysis has demonstrated that the adult Drosophila midgut is maintained by a population of multipotent intestinal stem cells (ISCs) that resides in epithelial niches. Adenomatous polyposis coli (Apc), a tumor suppressor gene conserved in both invertebrates and vertebrates, is known to play a role in multiple developmental processes in Drosophila. Here, we examine the consequences of eliminating Apc function on adult midgut homeostasis. Our analysis shows that loss of Apc results in the disruption of midgut homeostasis and is associated with hyperplasia and multilayering of the midgut epithelium. A mosaic analysis of marked ISC cell lineages demonstrates that Apc is required specifically in ISCs to regulate proliferation, but is not required for ISC self-renewal or the specification of cell fate within the lineage. Cell autonomous activation of Wnt signaling in the ISC lineage phenocopied Apc loss and Apc mutants were suppressed in an allele-specific manner by abrogating Wnt signaling, suggesting that the effects of Apc are mediated in part by the Wnt pathway. Together, these data underscore the essential requirement of Apc in exerting regulatory control over stem cell activity, as well as the consequences that disrupting this regulation can have on tissue homeostasis.

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DrosophilaMuller F Elements Maintain a Distinct Set of Genomic Properties Over 40 Million Years of Evolution

Leung

Shaffer

Reed

et al. 2015

101

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The Muller F element (4.2 Mb, ~80 protein-coding genes) is an unusual autosome of Drosophila melanogaster; it is mostly heterochromatic with a low recombination rate. To investigate how these properties impact the evolution of repeats and genes, we manually improved the sequence and annotated the genes on the D. erecta, D. mojavensis, and D. grimshawi F elements and euchromatic domains from the Muller D element. We find that F elements have greater transposon density (25–50%) than euchromatic reference regions (3–11%). Among the F elements, D. grimshawi has the lowest transposon density (particularly DINE-1: 2% vs. 11–27%). F element genes have larger coding spans, more coding exons, larger introns, and lower codon bias. Comparison of the Effective Number of Codons with the Codon Adaptation Index shows that, in contrast to the other species, codon bias in D. grimshawi F element genes can be attributed primarily to selection instead of mutational biases, suggesting that density and types of transposons affect the degree of local heterochromatin formation. F element genes have lower estimated DNA melting temperatures than D element genes, potentially facilitating transcription through heterochromatin. Most F element genes (~90%) have remained on that element, but the F element has smaller syntenic blocks than genome averages (3.4–3.6 vs. 8.4–8.8 genes per block), indicating greater rates of inversion despite lower rates of recombination. Overall, the F element has maintained characteristics that are distinct from other autosomes in the Drosophila lineage, illuminating the constraints imposed by a heterochromatic milieu.

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Identification of adult midgut precursors in Drosophila

Micchelli

Sudmeier

Perrimon

et al. 2011

Gene Expression Patterns

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Distinct phenotypic states and spatial distribution of CD8+ T cell clonotypes in human brain metastases

Sudmeier¹,

Hoang²,

Nduom³

et al. 2022

Cell Reports Medicine

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Localization of T cell clonotypes using the Visium spatial transcriptomics platform

Hudson

Sudmeier

2022

STAR Protocols

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Lisa Sudmeier

Adenomatous polyposis coliregulatesDrosophilaintestinal stem cell proliferation

DrosophilaMuller F Elements Maintain a Distinct Set of Genomic Properties Over 40 Million Years of Evolution

Identification of adult midgut precursors in Drosophila

Distinct phenotypic states and spatial distribution of CD8+ T cell clonotypes in human brain metastases

Localization of T cell clonotypes using the Visium spatial transcriptomics platform

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