Vera Jansen scite author profile

The cellular messenger cAMP regulates multiple cellular functions, including signaling in cilia and flagella. The cAMP dynamics in these subcellular compartments are ill-defined. We introduce a novel FRET-based cAMP biosensor with nanomolar sensitivity that is out of reach for other sensors. To measure cAMP dynamics in the sperm flagellum, we generated transgenic mice and reveal that the hitherto methods determining total cAMP levels do not reflect changes in free cAMP levels. Moreover, cAMP dynamics in the midpiece and principal piece of the flagellum are distinctively different. The sole cAMP source in the flagellum is the soluble adenylate cyclase (SACY). Although bicarbonate-dependent SACY activity requires Ca2+, basal SACY activity is suppressed by Ca2+. Finally, we also applied the sensor to primary cilia. Our new cAMP biosensor features unique characteristics that allow gaining new insights into cAMP signaling and unravel the molecular mechanisms underlying ciliary function in vitro and in vivo.DOI: http://dx.doi.org/10.7554/eLife.14052.001

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The Non-lysosomal β-Glucosidase GBA2 Is a Non-integral Membrane-associated Protein at the Endoplasmic Reticulum (ER) and Golgi

Körschen

Yildiz

Raju

et al. 2013

Journal of Biological Chemistry

101

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Background:The ␤-glucosidase GBA2 degrades glucosylceramide (GlcCer) outside the lysosomes. Results: GBA2 is not an integral membrane protein but rather is membrane-associated at the ER and Golgi. Conclusion: GBA2 is located in a key position for a lysosome-independent route of GlcCer-dependent signaling. Significance: Understanding the localization and enzymatic properties of GBA2 is crucial for investigating the role of nonlysosomal glucosylceramide in Gaucher disease pathology.

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Controlling fertilization and cAMP signaling in sperm by optogenetics

et al. 2015

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Optogenetics is a powerful technique to control cellular activity by light. The light-gated Channelrhodopsin has been widely used to study and manipulate neuronal activity in vivo, whereas optogenetic control of second messengers in vivo has not been examined in depth. In this study, we present a transgenic mouse model expressing a photoactivated adenylyl cyclase (bPAC) in sperm. In transgenic sperm, bPAC mimics the action of the endogenous soluble adenylyl cyclase (SACY) that is required for motility and fertilization: light-stimulation rapidly elevates cAMP, accelerates the flagellar beat, and, thereby, changes swimming behavior of sperm. Furthermore, bPAC replaces endogenous adenylyl cyclase activity. In mutant sperm lacking the bicarbonate-stimulated SACY activity, bPAC restored motility after light-stimulation and, thereby, enabled sperm to fertilize oocytes in vitro. We show that optogenetic control of cAMP in vivo allows to non-invasively study cAMP signaling, to control behaviors of single cells, and to restore a fundamental biological process such as fertilization.DOI: http://dx.doi.org/10.7554/eLife.05161.001

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How to control cyclic nucleotide signaling by light

Jansen

Jikeli

Wachten

2017

Current Opinion in Biotechnology

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Vera Jansen

A novel biosensor to study cAMP dynamics in cilia and flagella

The Non-lysosomal β-Glucosidase GBA2 Is a Non-integral Membrane-associated Protein at the Endoplasmic Reticulum (ER) and Golgi

Controlling fertilization and cAMP signaling in sperm by optogenetics

How to control cyclic nucleotide signaling by light

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