Dual, Constrictor-to-Dilator, Response of the Mouse Ductus Arteriosus to the Microsomal Prostaglandin E Synthase-1 Inhibitor, 2-(6-Chloro-1H-phenanthro[9,10&lt;i&gt;d&lt;/i&gt;]imidazole- 2-yl)isophthalonitrile

Baragatti, Barbara; Scebba, Francesca; Sodini, Daria; Pagni, Eleonora; Ciofini, Enrica; Xu, Daigen; Coceani, Flavio

doi:10.1159/000323790

Cited by 6 publications

(5 citation statements)

References 59 publications

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“…Hence, this selectivity has been sought by testing either an antagonist of the PGE 2 receptor subtype EP 4 48 or an inhibitor of the terminal mPGES1 enzyme in the synthetic cascade. 21 As expected, both treatments constrict the ductus with the distinct advantage over COX inhibition of leaving PGI 2 (prostacyclin) function unaffected. 21,48 In truth, there has been some inconsistency in the response to the mPGES1 inhibitor, but its cause is likely connected to the particular compound used.…”

supporting

confidence: 64%

“…Conversely, as discussed below, a promising lead may be found in the PGE synthase complex when considering that one of its constituents, microsomal PGE synthase-1 (mPGES1), is the prime source for PGE 2 in the ductus 20 and that mPGES1 suppression, unlike suppression of either COX, 13,14 is not followed by NO upregulation. 20,21 Postnatal closure The functional closure of the ductus rests on 2 complementary events, the contractile effect of oxygen on the muscle cells and the lesser influence of relaxant PGE 2 that follows the abrupt cessation of the placental function (i.e., the major source for blood-borne compound) and the waning expression of local PGE 2 receptors including the critical EP 4 subtype. 22,23 A considerable effort has been devoted over the years to identify the oxygen sensor and elucidate the mechanism by which its activation is translated into sustained contraction.…”

Section: Introductionmentioning

confidence: 99%

“…21 As expected, both treatments constrict the ductus with the distinct advantage over COX inhibition of leaving PGI 2 (prostacyclin) function unaffected. 21,48 In truth, there has been some inconsistency in the response to the mPGES1 inhibitor, but its cause is likely connected to the particular compound used. 21 On the other hand, the absence with mPGES1 inhibition of any rebound upregulation of NO is quite advantageous.…”

mentioning

confidence: 99%

“…21,48 In truth, there has been some inconsistency in the response to the mPGES1 inhibitor, but its cause is likely connected to the particular compound used. 21 On the other hand, the absence with mPGES1 inhibition of any rebound upregulation of NO is quite advantageous.21 On the downside, however, both agents still have opposing effects on ductus closure -i.e., subsidence of muscle relaxation along with inhibition of tissue remodeling -because this dual feature is intrinsic to PGE 2 action via the EP 4 receptor. Nevertheless, the therapeutic potential of these agents warrants further investigation.…”

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confidence: 99%

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Therapeutic manipulation of the ductus arteriosus: current options and future prospects

Coceani¹

2014

Polish Archives of Internal Medicine

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The ductus arteriosus is a large fetal vessel connecting the pulmonary artery with the aorta and allowing right ventricular blood to bypass the unexpanded lungs. At birth, with the start of lung ventilation and the attendant rise in blood oxygen tension, the ductus closes and the cardiovascular system acquires its final arrangement. However, in the prematurely born infant, this shunt may remain patent (patent ductus arteriosus -PDA) with adverse consequences on hemodynamic homeostasis. Conversely, there are cardiac malformations in which patency of the duct is required to maintain the pulmonary or systemic circulation prior to corrective surgery. Based on the notion that patency is an active process sustained primarily by prostaglandin (PG) E 2 , PDA is currently managed with synthesis inhibitors, indomethacin or ibuprofen, while any necessary persistence of the duct after birth is achieved with the infusion of PGE 1 . However, the former procedure presents a relatively high incidence of failures for the likely combination of the 2 events: the relaxing influence of the agents compensating for the loss of PGE 2 and the immaturity of the oxygen-triggered contractile mechanism. On the other hand, PGE 1 treatment loses some of its efficacy with time and may also be complicated by troublesome side effects. This article presents possible new approaches to therapy still based on the manipulation of the relaxing mechanism(s) responsible for duct patency. At the same time, however, the idea is put forward that the management of these sick infants may find its definitive solution only with tools being designed on the operation of the oxygen-sensing/effector system. REVIEW ARTICLE Therapeutic manipulation of the ductus arteriosus: current options and future prospects 59The role of PGE 2 has also become increasingly complex with the realization that its action within the ductus is not limited to muscle relaxation. In brief, it has been shown that PGE 2 also contributes to closure of the duct, antenatally by promoting the formation of intimal cushions, 18,19 which are critical for the sealing of the lumen, and postnatally by being involved in remodeling of the vessel wall, 18,19 that is, in the process leading to structural closure and, ultimately, to the demise of the shunt. In essence, one is dealing with an agent exerting opposite effects, definitely different in their time course but still capable to introduce some degree of unpredictability in the response to a synthesis inhibitor. In addition, over the years, the synthetic system for PGE 2 has revealed its full complexity, first with the identification of 2 isoforms, COX-1 and COX-2, in what was originally perceived as a single entity, and second, with the characterization of terminal enzymes in the synthetic cascade (i.e., the PGE synthases). The ductus is endowed with a complete, COX and PGE synthase, system, 15 hence making it unrewarding to attempt to replace currently used nonselective inhibitors with the newly developed COX-2 inhibitors. Conversely, as di...

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confidence: 64%

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confidence: 99%

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confidence: 99%

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Therapeutic manipulation of the ductus arteriosus: current options and future prospects

Coceani¹

2014

Polish Archives of Internal Medicine

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“…112 A single study in mice with a microsomal PGE synthase type 1 inhibitor showed dual effects on DA tone, ranging from vasoconstriction to vasodilation. 143 However, since there was no reciprocal increase in the NO pathway, further research regarding this enzyme might be worthwhile. Recently it was found that neonatal EP 4 inhibition with a EP 4 antagonist contracted the DA, with fewer adverse effects due to the selective expression of EP 4 in the rat DA.…”

Section: The Effect Of Ante-or Postnatal Exposure To Various Medicatimentioning

confidence: 99%

Understanding the pathobiology in patent ductus arteriosus in prematurity—beyond prostaglandins and oxygen

Hundscheid¹,

Broek

Lee³

et al. 2019

Pediatr Res

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The ductus arteriosus (DA) is probably the most intriguing vessel in postnatal hemodynamic transition. DA patency in utero is an active state, in which prostaglandin E 2 (PGE 2) and nitric monoxide (NO), play an important role. Since the DA gets programmed for postnatal closure as gestation advances, in preterm infants the DA frequently remains patent (PDA). PGE 2 exposure programs functional postnatal closure by inducing gene expression of ion channels and phosphodiesterases and anatomical closure by inducing intimal thickening. Postnatally, oxygen inhibits potassium and activates calcium channels, which ultimately leads to a rise in intracellular calcium concentration consequently inducing phosphorylation of the myosin light chain and thereby vasoconstriction of the DA. Since ion channel expression is lower in preterm infants, oxygen induced functional vasoconstriction is attenuated in comparison with full term newborns. Furthermore, the preterm DA is more sensitive to both PGE 2 and NO compared to the term DA pushing the balance toward less constriction. In this review we explain the physiology of DA patency in utero and subsequent postnatal functional closure. We will focus on the pathobiology of PDA in preterm infants and the (un)intended effect of antenatal exposure to medication on both fetal and neonatal DA vascular tone.

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Fragment-based discovery of novel and selective mPGES-1 inhibitors Part 1: Identification of sulfonamido-1,2,3-triazole-4,5-dicarboxylic acid

Lee¹,

Pham²,

Choi³

et al. 2013

Bioorganic & Medicinal Chemistry Letters

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Dual, Constrictor-to-Dilator, Response of the Mouse Ductus Arteriosus to the Microsomal Prostaglandin E Synthase-1 Inhibitor, 2-(6-Chloro-1H-phenanthro[9,10<i>d</i>]imidazole- 2-yl)isophthalonitrile

Cited by 6 publications

References 59 publications

Therapeutic manipulation of the ductus arteriosus: current options and future prospects

Therapeutic manipulation of the ductus arteriosus: current options and future prospects

Understanding the pathobiology in patent ductus arteriosus in prematurity—beyond prostaglandins and oxygen

Fragment-based discovery of novel and selective mPGES-1 inhibitors Part 1: Identification of sulfonamido-1,2,3-triazole-4,5-dicarboxylic acid

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