Growth of the maternal intestine during reproduction

Tomotsune Ameku; Anna Laddach; Hannah Beckwith; Alexandra Milona; L. M. Rogers; Cornelia Schwayer; Emma Nye; Iain R. Tough; Jean‐Louis Thoumas; Umesh Kumar Gautam; Yi-Fang Wang; Shreya Jha; Alvaro Castano-Medina; Christopher Amourda; Patric M Vaelli; Sira Gevers; Elaine E. Irvine; Leah Meyer; Ivan Andrew; Kyung Hoon Choi; Bhavik Patel; Alice J. Francis; Chris Studd; Laurence Gamé; George Young; Kevin G. Murphy; Bryn M. Owen; Dominic J. Withers; Maria J. Rodríguez Colman; Helen M. Cox; Prisca Liberali; Martin Schwarzer; François Leulier; Vassilis Pachnis; Nicholas W. Bellono; Irene Miguel‐Aliaga

doi:10.1016/j.cell.2025.02.015

Growth of the maternal intestine during reproduction

Tomotsune Ameku(Hammersmith Hospital), Anna Laddach(The Francis Crick Institute), Hannah Beckwith(Hammersmith Hospital), Alexandra Milona(Hammersmith Hospital), L. M. Rogers(Harvard University), Cornelia Schwayer(Friedrich Miescher Institute), Emma Nye(The Francis Crick Institute), Iain R. Tough(King's College London), Jean‐Louis Thoumas(Université Claude Bernard Lyon 1), Umesh Kumar Gautam(Czech Academy of Sciences, Institute of Microbiology), Yi-Fang Wang(Hammersmith Hospital), Shreya Jha(Hammersmith Hospital), Alvaro Castano-Medina(The Francis Crick Institute), Christopher Amourda(The Francis Crick Institute), Patric M Vaelli(Harvard University), Sira Gevers(Cancer Genomics Centre), Elaine E. Irvine(Hammersmith Hospital), Leah Meyer(Imperial College London), Ivan Andrew(Hammersmith Hospital), Kyung Hoon Choi(Hammersmith Hospital), Bhavik Patel(Hammersmith Hospital), Alice J. Francis(Hammersmith Hospital), Chris Studd(Hammersmith Hospital), Laurence Gamé(Hammersmith Hospital), George Young(Hammersmith Hospital), Kevin G. Murphy(Imperial College London), Bryn M. Owen(Imperial College London), Dominic J. Withers(Hammersmith Hospital), Maria J. Rodríguez Colman(Cancer Genomics Centre), Helen M. Cox(King's College London), Prisca Liberali(Friedrich Miescher Institute), Martin Schwarzer(Czech Academy of Sciences, Institute of Microbiology), François Leulier(Université Claude Bernard Lyon 1), Vassilis Pachnis(The Francis Crick Institute), Nicholas W. Bellono(Harvard University), Irene Miguel‐Aliaga(Hammersmith Hospital)

Cell

March 19, 2025

10.1016/j.cell.2025.02.015

Cited by 17Open Access

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Abstract

The organs of many female animals are remodeled by reproduction. Using the mouse intestine, a striking and tractable model of organ resizing, we find that reproductive remodeling is anticipatory and distinct from diet- or microbiota-induced resizing. Reproductive remodeling involves partially irreversible elongation of the small intestine and fully reversible growth of its epithelial villi, associated with an expansion of isthmus progenitors and accelerated enterocyte migration. We identify induction of the SGLT3a transporter in a subset of enterocytes as an early reproductive hallmark. Electrophysiological and genetic interrogations indicate that SGLT3a does not sustain digestive functions or enterocyte health; rather, it detects protons and sodium to extrinsically support the expansion of adjacent Fgfbp1-positive isthmus progenitors, promoting villus growth. Our findings reveal unanticipated specificity to physiological organ remodeling. We suggest that organ- and state-specific growth programs could be leveraged to improve pregnancy outcomes or prevent maladaptive consequences of such growth.

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