Publications by authors named "M De Caterina"
Kinase translocation reporters (KTRs) are powerful tools for single-cell measurement of time-integrated kinase activity but suffer from restricted dynamic range and limited sensitivity, particularly in neurons. To address these limitations, we developed enhanced KTRs (eKTRs) for protein kinase A (PKA) and extracellular signal-regulated kinase (ERK) that display high sensitivity, rapid response kinetics, broad dynamic range, cell type-specific tuning, and an ability to detect PKA and ERK activity in primary sensory neurons. Moreover, co-expression of optically separable eKTRs for PKA and ERK revealed the kinetics of expected and unexpected crosstalk between PKA, ERK, protein kinase C, and calcium signaling pathways, demonstrating the utility of eKTRs for live cell monitoring of diverse and interacting signaling pathways.
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- SLURP1 and SLURP2 are proteins linked to a skin condition called Mal de Meleda (MdM), which causes painful thickening of skin on the palms and soles due to genetic mutations.
- Mouse models lacking SLURP1 or SLURP2 exhibit similar skin thickening and show increased pain sensitivity to touch and temperature.
- The study found that these mice have changes in skin immune response and nerve activity, suggesting they could help in developing treatments for pain related to this skin condition.
In this issue of Neuron, Yamada et al. show that fast excitatory neurotransmission by protons acting at acid-sensing ion channels (ASICs) mediates mechanical force-evoked signaling at the Merkel cell-neurite complex, contributing to mammalian tactile discrimination.
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