Lysophosphatidic acid type 2 receptor agonists in targeted drug development offer broad therapeutic potential

Tigyi, Gábor; Johnson, Leonard R.; Lee, Sue Chin; Norman, Dean C.; Szabó, Erzsébet; Balogh, Andrea; Thompson, Karin E.; Boler, Alyssa; McCool, Shannon W.

doi:10.1194/jlr.s091744

Cited by 24 publications

(21 citation statements)

References 78 publications

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“…By contrast, the knockout of LPAR1 or LPAR3 does not have this effect [ 168 ]. On the other hand, LPAR2 agonists show a therapeutic potential against irradiation-induced injury [ 168 , 169 ]. LPA contributes to the resistance of 786-O renal cancer cells to Temsirolimus and Sunitinib by activating Arf6 GTPase through LPAR2 [ 170 ].…”

Section: Upregulation Of Lpa Signaling In Cancersmentioning

confidence: 99%

Lipid Phosphate Phosphatases and Cancer

Tang

Brindley

2020

Biomolecules

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Lipid phosphate phosphatases (LPPs) are a group of three enzymes (LPP1–3) that belong to a phospholipid phosphatase (PLPP) family. The LPPs dephosphorylate a wide spectrum of bioactive lipid phosphates, among which lysophosphatidate (LPA) and sphingosine 1-phosphate (S1P) are two important extracellular signaling molecules. The LPPs are integral membrane proteins, which are localized on plasma membranes and intracellular membranes, including the endoplasmic reticulum and Golgi network. LPPs regulate signaling transduction in cancer cells and demonstrate different effects in cancer progression through the breakdown of extracellular LPA and S1P and other intracellular substrates. This review is intended to summarize an up-to-date understanding about the functions of LPPs in cancers.

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Section: Upregulation Of Lpa Signaling In Cancersmentioning

confidence: 99%

Lipid Phosphate Phosphatases and Cancer

Tang

Brindley

2020

Biomolecules

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“…LPA enhances cell survival post-irradiation, and the ability of LPA 2 to interact with TRIP6, Siva-1 or NHERF2 is critical in LPA-mediated protection of cells [158,163,165,166]. Lpar2 −/− mice have defects in intestinal epithelial recovery from radiation-induced injury, and LPA 2 agonists show a therapeutic potential against radiation-induced injury [167,168].…”

Section: Lpa2mentioning

confidence: 99%

Lysophosphatidic Acid and Autotaxin-associated Effects on the Initiation and Progression of Colorectal Cancer

Yun

2019

Cancers

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The intestinal epithelium interacts dynamically with the immune system to maintain its barrier function to protect the host, while performing the physiological roles in absorption of nutrients, electrolytes, water and minerals. The importance of lysophosphatidic acid (LPA) and its receptors in the gut has been progressively appreciated. LPA signaling modulates cell proliferation, invasion, adhesion, angiogenesis, and survival that can promote cancer growth and metastasis. These effects are equally important for the maintenance of the epithelial barrier in the gut, which forms the first line of defense against the milieu of potentially pathogenic stimuli. This review focuses on the LPA-mediated signaling that potentially contributes to inflammation and tumor formation in the gastrointestinal tract.

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“…A significant body of evidence indicates that LPA plays a crucial role in the growth and differentiation of intestine as well as the protection of intestinal mucosa from a variety of noxious conditions 34,36,37,39,40 . The endogenous LPA and synthetic analogs such as RP‐1 protect the gut from the genotoxic stress‐triggered sequelae of pathophysiological events that underlie the acute gastrointestinal radiation syndrome 29 . However, the role of LPA in the protection of the colonic mucosal barrier function is poorly understood.…”

Section: Discussionmentioning

confidence: 99%

“…27 These actions led to a significant decrease in lethality after doses as high as 16 Gy. [12][13][14][15]18,28,29 The experimental groups for this study consisted of Sham (control), IR (vehicle), and IR+RP-1 (0.5 mg/ kg daily, s.c.). Vehicle or RP1 was administered at 0, 24, or 48 hours after irradiation.…”

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confidence: 99%

LPAR2 receptor activation attenuates radiation‐induced disruption of apical junctional complexes and mucosal barrier dysfunction in mouse colon

et al. 2020

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The tight junction (TJ) and barrier function of colonic epithelium is highly sensitive to ionizing radiation. We evaluated the effect of lysophosphatidic acid (LPA) and its analog, Radioprotein‐1, on γ‐radiation‐induced colonic epithelial barrier dysfunction using Caco‐2 and m‐ICC12 cell monolayers in vitro and mice in vivo. Mice were subjected to either total body irradiation (TBI) or partial body irradiation (PBI‐BM5). Intestinal barrier function was assessed by analyzing immunofluorescence localization of TJ proteins, mucosal inulin permeability, and plasma lipopolysaccharide (LPS) levels. Oxidative stress was analyzed by measuring protein thiol oxidation and antioxidant mRNA. In Caco‐2 and m‐ICC12 cell monolayers, LPA attenuated radiation‐induced redistribution of TJ proteins, which was blocked by a Rho‐kinase inhibitor. In mice, TBI and PBI‐BM5 disrupted colonic epithelial tight junction and adherens junction, increased mucosal permeability, and elevated plasma LPS; TJ disruption by TBI was more severe in Lpar2−/− mice compared to wild‐type mice. RP1, administered before or after irradiation, alleviated TBI and PBI‐BM5‐induced TJ disruption, barrier dysfunction, and endotoxemia accompanied by protein thiol oxidation and downregulation of antioxidant gene expression, cofilin activation, and remodeling of the actin cytoskeleton. These data demonstrate that LPAR2 receptor activation prevents and mitigates γ‐irradiation‐induced colonic mucosal barrier dysfunction and endotoxemia.

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Lysophosphatidic acid type 2 receptor agonists in targeted drug development offer broad therapeutic potential

Cited by 24 publications

References 78 publications

Lipid Phosphate Phosphatases and Cancer

Lipid Phosphate Phosphatases and Cancer

Lysophosphatidic Acid and Autotaxin-associated Effects on the Initiation and Progression of Colorectal Cancer

LPAR2 receptor activation attenuates radiation‐induced disruption of apical junctional complexes and mucosal barrier dysfunction in mouse colon

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