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Differential expression patterns of phospholipase D isoforms 1 and 2 in the mammalian brain and retina.


ABSTRACT: Phosphatidic acid is a key signaling molecule heavily implicated in exocytosis due to its protein-binding partners and propensity to induce negative membrane curvature. One phosphatidic acid-producing enzyme, phospholipase D (PLD), has also been implicated in neurotransmission. Unfortunately, due to the unreliability of reagents, there has been confusion in the literature regarding the expression of PLD isoforms in the mammalian brain which has hampered our understanding of their functional roles in neurons. To address this, we generated epitope-tagged PLD1 and PLD2 knockin mice using CRISPR/Cas9. Using these mice, we show that PLD1 and PLD2 are both localized at synapses by adulthood, with PLD2 expression being considerably higher in glial cells and PLD1 expression predominating in neurons. Interestingly, we observed that only PLD1 is expressed in the mouse retina, where it is found in the synaptic plexiform layers. These data provide critical information regarding the localization and potential role of PLDs in the central nervous system.

SUBMITTER: Barber CN 

PROVIDER: S-EPMC9305353 | biostudies-literature | 2022 Aug

REPOSITORIES: biostudies-literature

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Differential expression patterns of phospholipase D isoforms 1 and 2 in the mammalian brain and retina.

Barber Casey N CN   Goldschmidt Hana L HL   Lilley Brendan B   Bygrave Alexei M AM   Johnson Richard C RC   Huganir Richard L RL   Zack Donald J DJ   Raben Daniel M DM  

Journal of lipid research 20220625 8


Phosphatidic acid is a key signaling molecule heavily implicated in exocytosis due to its protein-binding partners and propensity to induce negative membrane curvature. One phosphatidic acid-producing enzyme, phospholipase D (PLD), has also been implicated in neurotransmission. Unfortunately, due to the unreliability of reagents, there has been confusion in the literature regarding the expression of PLD isoforms in the mammalian brain which has hampered our understanding of their functional role  ...[more]

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