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2.
Nat Commun ; 15(1): 12, 2024 01 09.
Article in English | MEDLINE | ID: mdl-38195585

ABSTRACT

Frugivory evolved multiple times in mammals, including bats. However, the cellular and molecular components driving it remain largely unknown. Here, we use integrative single-cell sequencing (scRNA-seq and scATAC-seq) on insectivorous (Eptesicus fuscus; big brown bat) and frugivorous (Artibeus jamaicensis; Jamaican fruit bat) bat kidneys and pancreases and identify key cell population, gene expression and regulatory differences associated with the Jamaican fruit bat that also relate to human disease, particularly diabetes. We find a decrease in loop of Henle and an increase in collecting duct cells, and differentially active genes and regulatory elements involved in fluid and electrolyte balance in the Jamaican fruit bat kidney. The Jamaican fruit bat pancreas shows an increase in endocrine and a decrease in exocrine cells, and differences in genes and regulatory elements involved in insulin regulation. We also find that these frugivorous bats share several molecular characteristics with human diabetes. Combined, our work provides insights from a frugivorous mammal that could be leveraged for therapeutic purposes.


Subject(s)
Chiroptera , Diabetes Mellitus , Humans , Animals , Pancreas , Kidney , Epithelial Cells
3.
bioRxiv ; 2023 Feb 13.
Article in English | MEDLINE | ID: mdl-36824791

ABSTRACT

Frugivory evolved multiple times in mammals, including bats. However, the cellular and molecular components driving it remain largely unknown. Here, we used integrative single-cell sequencing on insectivorous and frugivorous bat kidneys and pancreases and identified key cell population, gene expression and regulatory element differences associated with frugivorous adaptation that also relate to human disease, particularly diabetes. We found an increase in collecting duct cells and differentially active genes and regulatory elements involved in fluid and electrolyte balance in the frugivore kidney. In the frugivorous pancreas, we observed an increase in endocrine and a decrease in exocrine cells and differences in genes and regulatory elements involved in insulin regulation. Combined, our work provides novel insights into frugivorous adaptation that also could be leveraged for therapeutic purposes.

4.
Nat Genet ; 53(4): 467-476, 2021 04.
Article in English | MEDLINE | ID: mdl-33731941

ABSTRACT

Gene regulatory divergence is thought to play a central role in determining human-specific traits. However, our ability to link divergent regulation to divergent phenotypes is limited. Here, we utilized human-chimpanzee hybrid induced pluripotent stem cells to study gene expression separating these species. The tetraploid hybrid cells allowed us to separate cis- from trans-regulatory effects, and to control for nongenetic confounding factors. We differentiated these cells into cranial neural crest cells, the primary cell type giving rise to the face. We discovered evidence of lineage-specific selection on the hedgehog signaling pathway, including a human-specific sixfold down-regulation of EVC2 (LIMBIN), a key hedgehog gene. Inducing a similar down-regulation of EVC2 substantially reduced hedgehog signaling output. Mice and humans lacking functional EVC2 show striking phenotypic parallels to human-chimpanzee craniofacial differences, suggesting that the regulatory divergence of hedgehog signaling may have contributed to the unique craniofacial morphology of humans.


Subject(s)
Chimera/genetics , Ellis-Van Creveld Syndrome/genetics , Intercellular Signaling Peptides and Proteins/genetics , Neural Crest/metabolism , Pan troglodytes/genetics , Skull/metabolism , Animals , Biological Evolution , Cell Differentiation , Chimera/metabolism , Ellis-Van Creveld Syndrome/metabolism , Ellis-Van Creveld Syndrome/pathology , Female , Gene Expression , Genotype , Humans , Induced Pluripotent Stem Cells/cytology , Induced Pluripotent Stem Cells/metabolism , Intercellular Signaling Peptides and Proteins/deficiency , Male , Mice , Mice, Knockout , Neural Crest/pathology , Pan troglodytes/anatomy & histology , Pan troglodytes/metabolism , Phenotype , Signal Transduction , Skull/anatomy & histology , Species Specificity , Tetraploidy
6.
Aquat Toxicol ; 212: 88-97, 2019 Jul.
Article in English | MEDLINE | ID: mdl-31077970

ABSTRACT

Ionocytes are specialized cells in the epidermis of embryonic zebrafish (Danio rerio) that play important roles in ion homeostasis and have functional similarities to mammalian renal cells. Here, we examined whether these cells might also share another functional similarity with renal cells, which is the presence of efflux transporter activities useful for elimination of toxic small molecules. Xenobiotic transporters (XTs), including the ATP-Binding Cassette (ABC) family, are a major defense mechanism against diffusible toxic molecules in aquatic embryos, including zebrafish, but their activity in the ionocytes has not previously been studied. Using fluorescent small molecule substrates of XT, we observed that specific populations of ionocytes uptake and efflux fluorescent small molecules in a manner consistent with active transport. We specifically identified a P-gp/ABCB1 inhibitor-sensitive efflux activity in the H+-ATPase-rich (HR) ionocytes, and show that these cells exhibit enriched expression of the ABCB gene, abcb5. The results extend our understanding of the functional significance of zebrafish ionocytes and indicate that these cells could play an important role in protection of the fish embryo from harmful small molecules.


Subject(s)
Embryo, Nonmammalian/cytology , Embryo, Nonmammalian/metabolism , Xenobiotics/metabolism , Zebrafish Proteins/metabolism , Zebrafish/embryology , Zebrafish/metabolism , Animals , Anions , Biological Transport , Epidermis/drug effects , Fluorescent Dyes/metabolism , Mitochondria/metabolism , Proton-Translocating ATPases/metabolism , Zebrafish Proteins/genetics
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