grant

Novel Designed Multi-Ligands as Tocolytics for Dysregulated Myometrial Pathways in the Treatment of Preterm Labor

Organization UNIVERSITY OF NEVADA RENOLocation RENO, UNITED STATESPosted 8 Aug 2024Deadline 31 Jul 2027
NIHUS FederalResearch GrantFY20252019 novel corona virus2019 novel coronavirus2019-nCoVAddressAffinityAfrican American FemalesAfrican American WomenAgonistBathingBathsBirthBlood VesselsBody TissuesBody Weight decreasedCOVID-19 affectedCOVID-19 consequenceCOVID-19 effectCOVID-19 impactCOVID-19 impactedCOVID-19 virusCOVID19 virusCaucasianCaucasian RaceCaucasiansCaucasoidCaucasoid RaceCell Communication and SignalingCell SignalingCells Placenta-TissueCerebral PalsyCessation of lifeChemicalsClinicalClosure by LigationCoV-2CoV2Cofactor Protein SCombined Modality TherapyCommunicating JunctionConnexin 43Connexin43Corpus Luteum HormoneCx43DeathDehydrogenasesDelta4-pregnene-3,20-dioneDiffusionDiseaseDisorderDoseDrug CombinationsDrug KineticsDrug usageDrugsEndogenous Nitrate VasodilatorEndothelium-Derived Nitric OxideEnteralEntericExhibitsExposure toFDA approvedFailureFetusGap JunctionsGenerationsGestationGoalsHealthHeartHourHumanInfectionIntermediary MetabolismIntracellular Communication and SignalingInvoluntary MuscleLabelLaboratoriesLearning DisabilitiesLearning disabilityLifeLigandsLigationLow-resistance JunctionMeasurementMeasuresMedicalMedicationMedicinal ChemistryMetabolic ProcessesMetabolismMiceMice MammalsMifegyneMifeprexMifepristoneModern ManMolecular WeightMononitrogen MonoxideMothersMultimodal TherapyMultimodal TreatmentMurineMusMyometrialNatureNexus JunctionNitric OxideNitrogen MonoxideNitrogen ProtoxideNitrosationNormal PlacentomaOccidentalOcytocinOrganOutcomeOxidoreductaseOxidoreductase GeneOxytocinParturitionPathway interactionsPenetrationPharmaceutic ChemistryPharmaceutical ChemistryPharmaceutical PreparationsPharmacokineticsPharmacologyPlacentaPlacenta Embryonic TissuePlacentomePregn-4-ene-3,20-dionePregnancyPregnant WomenPregnenedionePremature BirthPremature InfantPremature LaborPremature Obstetric LaborPrematurely deliveringPreterm BirthPreterm LaborProductionProgesteronePropertyProtein SR 38486R38486RU-38486RU-486RU38486RU486Recombinant OxytocinReductasesRelaxationResearchRiskS-Nitroso-GSHS-NitrosoglutathioneSARS corona virus 2SARS-CO-V2SARS-COVID-2SARS-CoV-2SARS-CoV2SARS-associated corona virus 2SARS-associated coronavirus 2SARS-coronavirus-2SARS-related corona virus 2SARS-related coronavirus 2SARSCoV2Severe Acute Respiratory Coronavirus 2Severe Acute Respiratory Distress Syndrome CoV 2Severe Acute Respiratory Distress Syndrome Corona Virus 2Severe Acute Respiratory Distress Syndrome Coronavirus 2Severe Acute Respiratory Syndrome CoV 2Severe Acute Respiratory Syndrome-associated coronavirus 2Severe Acute Respiratory Syndrome-related coronavirus 2Severe acute respiratory syndrome associated corona virus 2Severe acute respiratory syndrome coronavirus 2Severe acute respiratory syndrome related corona virus 2Signal TransductionSignal Transduction SystemsSignalingSmooth MuscleTargeted ResearchTechniquesTestingTherapeuticTherapeutic ProgesteroneTimeTissuesTocolysisTocolytic AgentsTocolytic TherapyTocolytic TreatmentTocolyticsUterine MuscleUterusVitamin K-Dependent Protein SWeight LossWeight ReductionWuhan coronavirusbiological signal transductionbody weight losscombination therapycombined modality treatmentcombined treatmentcoronavirus disease 2019 consequencecoronavirus disease 2019 effectcoronavirus disease 2019 impactcoronavirus disease 2019 viruscoronavirus disease-19 impactcoronavirus disease-19 virusdelayed birthdesigndesigningdiffuseddiffusesdiffusingdiffusionsdisabilitydrug usedrug/agentendothelial cell derived relaxing factorexpectant motherexpectant womenexpecting motherexpecting womenexperienceexposed in uteroextreme prematurityextremely premature infantextremely pretermextremely preterm infantfemale treatmentfetalfetal exposuregap junction channelhCoV19improvedin utero exposurein vivoindividuals who are pregnantinfants born prematureinfants born prematurelyinnovateinnovationinnovativeintra-uterine environmental exposureintrauterine environmental exposuremouse modelmulti-modal therapymulti-modal treatmentmurine modelmyometriumnCoV2new drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnovelnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapypathwaypeople who are pregnantplacental transferpregnant femalespregnant motherspregnant peoplepregnant populationsprematurepremature babypremature childbirthpremature deliverypremature infant humanprematurityprenatal exposureprenatally exposedpreterm babypreterm deliverypreterm infantpreterm infant humanpreventpreventingrespiratorysmall moleculesmall molecule therapeuticssuccessthose who are pregnanttreat femalestreat womentreatment among femalestreatment among womentreatment in femalestreatment in womenuptakevascularvery prematurevery pretermwhite racewombwomen who are pregnantwomen's treatmentwt-loss
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Full Description

PROJECT SUMMARY ABSTRACT
Preterm birth is a major medical problem resulting in disability and death for very preterm infants. Therapeutic approaches
to manage preterm labor are off-label and ineffective. No tocolytic therapy in use today is satisfactory beyond 48 hours, and
none is FDA approved. Preterm labor more often impacts African American women than their Caucasian counterparts and
is exacerbated by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which leads to preterm birth in COVID-
19 affected pregnancies. Our central hypotheses are that designed multi-ligand (DML) drugs to be generated in this research
that target dysregulated pathways in preterm myometrium will provide a therapeutic benefit in cases of preterm labor while
decreasing fetal exposure to the compounds, and that co-administration of the DML’s ‘constituent single entities’ will
exhibit synergistic tocolysis. In addition to providing a potential synergistic benefit, we expect that our DMLs will be poorly
transported across the placenta due to favorable pharmacokinetic properties of the DMLs, and thus will protect the fetus
from exposure. Decreased placental transfer will improve dose-ranging for clinical benefit to prevent preterm labor. This
research will justify novel DMLs as potential new tocolytics to prevent preterm birth. This proposal will generate novel
DMLs using advanced Medicinal Chemistry techniques and will make extensive use of ex vivo and in vivo experimentation
using both human and mouse tissue. The long term goal of this project is to generate first-in-class tocolytics that will delay
or halt early labor and prevent preterm birth.

Grant Number: 5R21HD112011-02
NIH Institute/Center: NIH
Principal Investigator: Scott Barnett

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