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Single-cell RNA sequencing reveals placental response under environmental stress

Eric Van Buren, David Azzara, Javier Rangel‐Moreno, María de la Luz García-Hernández, Shawn P. Murphy, E. Cohen, Ethan Lewis, Xihong Lin, Hae‐Ryung Park

2024Nature Communications17 citationsDOIOpen Access PDF

Abstract

The placenta is crucial for fetal development, yet the impact of environmental stressors such as arsenic exposure remains poorly understood. We apply single-cell RNA sequencing to analyze the response of the mouse placenta to arsenic, revealing cell-type-specific gene expression, function, and pathological changes. Notably, the Prap1 gene, which encodes proline-rich acidic protein 1 (PRAP1), is significantly upregulated in 26 placental cell types including various trophoblast cells. Our study shows a female-biased increase in PRAP1 in response to arsenic and localizes it in the placenta. In vitro and ex vivo experiments confirm PRAP1 upregulation following arsenic treatment and demonstrate that recombinant PRAP1 protein reduces arsenic-induced cytotoxicity and downregulates cell cycle pathways in human trophoblast cells. Moreover, PRAP1 knockdown differentially affects cell cycle processes, proliferation, and cell death depending on the presence of arsenic. Our findings provide insights into the placental response to environmental stress, offering potential preventative and therapeutic approaches for environment-related adverse outcomes in mothers and children.

Topics & Concepts

Environmental stressRNAComputational biologyBiologyFight-or-flight responseCellGeneticsCell biologyEvolutionary biologyGeneSingle-cell and spatial transcriptomicsPregnancy and preeclampsia studiesBirth, Development, and Health
Single-cell RNA sequencing reveals placental response under environmental stress | Litcius