Goda Snieckute scite author profile

An appropriate balance in glycosylation of proteoglycans is crucial for their ability to regulate animal development. Here, we report that the Caenorhabditis elegans microRNA mir-79, an ortholog of mammalian miR-9, controls sugar-chain homeostasis by targeting two proteins in the proteoglycan biosynthetic pathway: a chondroitin synthase (SQV-5; squashed vulva-5) and a uridine 5'-diphosphate-sugar transporter (SQV-7). Loss of mir-79 causes neurodevelopmental defects through SQV-5 and SQV-7 dysregulation in the epidermis. This results in a partial shutdown of heparan sulfate biosynthesis that impinges on a LON-2/glypican pathway and disrupts neuronal migration. Our results identify a regulatory axis controlled by a conserved microRNA that maintains proteoglycan homeostasis in cells.

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Ribosome stalling is a signal for metabolic regulation by the ribotoxic stress response

Snieckute¹,

Genzor²,

Vind³

et al. 2022

Cell Metabolism

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ZAKβ is activated by cellular compression and mediates contraction‐induced MAP kinase signaling in skeletal muscle

et al. 2022

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Mechanical inputs give rise to p38 and JNK activation, which mediate adaptive physiological responses in various tissues. In skeletal muscle, contraction-induced p38 and JNK signaling ensure adaptation to exercise, muscle repair, and hypertrophy. However, the mechanisms by which muscle fibers sense mechanical load to activate this signaling have remained elusive. Here, we show that the upstream MAP3K ZAKb is activated by cellular compression induced by osmotic shock and cyclic compression in vitro, and muscle contraction in vivo. This function relies on ZAKb's ability to recognize stress fibers in cells and Z-discs in muscle fibers when mechanically perturbed. Consequently, ZAK-deficient mice present with skeletal muscle defects characterized by fibers with centralized nuclei and progressive adaptation towards a slower myosin profile. Our results highlight how cells in general respond to mechanical compressive load and how mechanical forces generated during muscle contraction are translated into MAP kinase signaling.

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Ribosome impairment regulates intestinal stem cell identity via ZAKɑ activation

et al. 2022

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The small intestine is a rapidly proliferating organ that is maintained by a small population of Lgr5-expressing intestinal stem cells (ISCs). However, several Lgr5-negative ISC populations have been identified, and this remarkable plasticity allows the intestine to rapidly respond to both the local environment and to damage. However, the mediators of such plasticity are still largely unknown. Using intestinal organoids and mouse models, we show that upon ribosome impairment (driven by Rptor deletion, amino acid starvation, or low dose cyclohexamide treatment) ISCs gain an Lgr5-negative, fetal-like identity. This is accompanied by a rewiring of metabolism. Our findings suggest that the ribosome can act as a sensor of nutrient availability, allowing ISCs to respond to the local nutrient environment. Mechanistically, we show that this phenotype requires the activation of ZAKɑ, which in turn activates YAP, via SRC. Together, our data reveals a central role for ribosome dynamics in intestinal stem cells, and identify the activation of ZAKɑ as a critical mediator of stem cell identity.

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Alternative Translation Initiation Generates a Functionally Distinct Isoform of the Stress-Activated Protein Kinase MK2

et al. 2019

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Graphical Abstract Highlights d The MK2 mRNA contains an in-frame upstream CUG translation initiation site d An N-terminal extended isoform of the protein kinase MK2 is consequently translated d This isoform has unique and shared properties compared to the canonical isoform d The extended N terminus of long MK2 is phosphorylated at a defined serine residue SUMMARYAlternative translation is an important mechanism of post-transcriptional gene regulation leading to the expression of different protein isoforms originating from the same mRNA. Here, we describe an abundant long isoform of the stress/p38 MAPK -activated protein kinase MK2. This isoform is constitutively translated from an alternative CUG translation initiation start site located in the 5 0 UTR of its mRNA. The RNA helicase eIF4A1 is needed to ensure translation of the long and the known short isoforms of MK2, of which the molecular properties were determined. Only the short isoform phosphorylated Hsp27 in vivo, supported migration and stress-induced immediate early gene (IEG) expression. Interaction profiling revealed short-isoform-specific binding partners that were associated with migration. In contrast, the long isoform contains at least one additional phosphorylatable serine in its unique N terminus. In sum, our data reveal a longer isoform of MK2 with distinct physiological properties.

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mir-234 controls neuropeptide release at the Caenorhabditis elegans neuromuscular junction

Snieckute¹,

Baltaci

Liu

et al. 2019

Molecular and Cellular Neuroscience

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Atypical TGF-β signaling controls neuronal guidance in Caenorhabditis elegans

et al. 2022

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Goda Snieckute

ZAKα Recognizes Stalled Ribosomes through Partially Redundant Sensor Domains

An Epidermal MicroRNA Regulates Neuronal Migration Through Control of the Cellular Glycosylation State

Ribosome stalling is a signal for metabolic regulation by the ribotoxic stress response

ZAKβ is activated by cellular compression and mediates contraction‐induced MAP kinase signaling in skeletal muscle

Ribosome impairment regulates intestinal stem cell identity via ZAKɑ activation

Alternative Translation Initiation Generates a Functionally Distinct Isoform of the Stress-Activated Protein Kinase MK2

mir-234 controls neuropeptide release at the Caenorhabditis elegans neuromuscular junction

Atypical TGF-β signaling controls neuronal guidance in Caenorhabditis elegans

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