A conserved protein tyrosine phosphatase, PTPN-22, functions in diverse developmental processes in<i>C. elegans</i>

Binti, Shaonil; Linder, Adison G.; Edeen, Philip T.; Fay, David S.

doi:10.1101/2024.03.12.584557

2024

DOI: 10.1101/2024.03.12.584557

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A conserved protein tyrosine phosphatase, PTPN-22, functions in diverse developmental processes inC. elegans

Shaonil Binti,

Adison G. Linder,

Philip T. Edeen

et al.

Abstract: Protein tyrosine phosphatases non-receptor type (PTPNs) have been studied extensively in the context of the adaptive immune system; however, their roles beyond immunoregulation are less well explored. Here we identify novel functions for the conserved C. elegans phosphatase PTPN-22, establishing its role in nematode molting, cell adhesion, and cytoskeletal regulation. Through a non-biased genetic screen, we found that loss of PTPN-22 phosphatase activity suppressed molting defects caused by loss-of-function mu… Show more

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TAT-1, a phosphatidylserine flippase, affects molting and regulates membrane trafficking in the epidermis ofC. elegans

Milne,

Edeen,

Fay

2024

Preprint

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Membrane trafficking is a conserved process required for the movement and distribution of proteins and other macromolecules within cells. TheCaenorhabditis elegansNIMA-related kinases NEKL-2 (human NEK8/9) and NEKL-3 (human NEK6/7) are conserved regulators of membrane trafficking and are required for the completion of molting. We used a genetic approach to identify reduction-of-function mutations intat-1that suppressnekl-associated molting defects.tat-1encodes theC. elegansortholog of mammalian ATP8A1/2, a phosphatidylserine (PS) flippase that promotes the asymmetric distribution of PS to the cytosolic leaflet of lipid membrane bilayers. CHAT-1 (human CDC50), a conserved chaperone, was required for the correct localization of TAT-1, andchat-1inhibition strongly suppressednekldefects. Using a PS sensor, we found that TAT-1 was required for the normal localization of PS at apical endosomes and that loss of TAT-1 led to aberrant endosomal morphologies. Consistent with this, TAT-1 localized to early endosomes and to recycling endosomes marked with RME-1, theC. elegansortholog of the human EPS15 homology (EH) domain-containing protein, EHD1. TAT-1, PS biosynthesis, and the PS-binding protein RFIP-2 (human RAB11-FIP2) were all required for the normal localization of RME-1 to apical endosomes. Consistent with these proteins functioning together, inhibition of RFIP-2 or RME-1 led to the partial suppression ofneklmolting defects, as did the inhibition of PS biosynthesis. Using the auxin-inducible degron system, we found that depletion of NEKL-2 or NEKL-3 led to defects in RME-1 localization and that a reduction in TAT-1 function partially restored RME-1 localization in NEKL-3–depleted cells.ARTICLE SUMMARYEndocytosis is an essential process required for the movement of proteins and lipids within cells. NEKL-2 and NEKL-3, two evolutionarily conserved proteins in the nematodeCaenorhabditis elegans, are important regulators of endocytosis. In the current study, the authors describe a new functional link between the NEKLs and several proteins with known roles in endocytosis including TAT-1, a conserved enzyme that moves lipids between the bilayers of cellular membranes. As previous work implicated NEKLs in developmental defects and cancer, the present study can provide new insights into how the misregulation of endocytosis affects human health and disease.

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TAT-1, a phosphatidylserine flippase, affects molting and regulates membrane trafficking in the epidermis ofC. elegans

Milne,

Edeen,

Fay

2024

Preprint

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A conserved protein tyrosine phosphatase, PTPN-22, functions in diverse developmental processes inC. elegans

Cited by 1 publication

References 115 publications

TAT-1, a phosphatidylserine flippase, affects molting and regulates membrane trafficking in the epidermis ofC. elegans

TAT-1, a phosphatidylserine flippase, affects molting and regulates membrane trafficking in the epidermis ofC. elegans

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