Base by Base explores advances in genetics and genomics, with a focus on gene-disease associations, variant interpretation, protein structure, and insights from exome and genome sequencing. Each episode breaks down key studies and their clinical relevance—one base at a time.
Powered by AI, Base by Base offers a new way to learn on the go. Special thanks to authors who publish under CC BY 4.0, making open-access science faster to share and easier to explore.
All content for Base by Base is the property of Gustavo Barra and is served directly from their servers
with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.
Base by Base explores advances in genetics and genomics, with a focus on gene-disease associations, variant interpretation, protein structure, and insights from exome and genome sequencing. Each episode breaks down key studies and their clinical relevance—one base at a time.
Powered by AI, Base by Base offers a new way to learn on the go. Special thanks to authors who publish under CC BY 4.0, making open-access science faster to share and easier to explore.
174: TMEM217–SLC9C1: Wiring the cAMP Switch for Sperm Motility and Male Fertility
Base by Base
16 minutes 40 seconds
2 weeks ago
174: TMEM217–SLC9C1: Wiring the cAMP Switch for Sperm Motility and Male Fertility
️ Episode 174: TMEM217–SLC9C1: Wiring the cAMP Switch for Sperm Motility and Male Fertility
In this episode of PaperCast Base by Base, we explore a PNAS study revealing how TMEM217 forms a complex with the sperm-specific Na+/H+ exchanger SLC9C1 to organize cAMP signaling, sustain motility, and enable fertilization in mice.
Study Highlights:Using phylogenetic profiling and interactomics, the authors identified TMEM217 as a conserved partner of the exchanger SLC9C1 and showed that both proteins localize to the principal piece of the sperm flagellum. Knockout of Tmem217 produced severe motility defects and infertility with hairpin flagellar bending, accompanied by loss of SLC9C1 and full-length soluble adenylyl cyclase, reduced cAMP levels, and dampened PKA and tyrosine phosphorylation. Co-immunoprecipitation and AlphaFold3 modeling demonstrated that TMEM217 binds the voltage-sensing domain of SLC9C1, supporting a mechanism that assembles the SLC9C1–sAC–cAMP axis during spermiogenesis. Pharmacologic boosting of cAMP paired with membrane-conditioning media restored motility and fertilization in vitro, yielding viable offspring after embryo transfer.
Conclusion:Dissecting the TMEM217–SLC9C1 interface and local cAMP control suggests diagnostics and mutation-agnostic therapeutic strategies for asthenozoospermia and male infertility.
Reference:Iida-Norita R, Miyata H, Ninomiya A, Emori C, Kamoshita M, Pan C, Wang H, Ikawa M. Formation of a complex between TMEM217 and the sodium-proton exchanger SLC9C1 is crucial for mouse sperm motility and male fertility. Proceedings of the National Academy of Sciences. 2025;122(42):e2513924122. https://doi.org/10.1073/pnas.2513924122
License:This episode is based on an open-access article published under the Creative Commons Attribution 4.0 International License (CC BY 4.0) – https://creativecommons.org/licenses/by/4.0/
Support:If you'd like to support Base by Base, you can make a one-time or monthly donation here: https://basebybase.castos.com/
Base by Base
Base by Base explores advances in genetics and genomics, with a focus on gene-disease associations, variant interpretation, protein structure, and insights from exome and genome sequencing. Each episode breaks down key studies and their clinical relevance—one base at a time.
Powered by AI, Base by Base offers a new way to learn on the go. Special thanks to authors who publish under CC BY 4.0, making open-access science faster to share and easier to explore.
