Dihydroergotamine Increases Histamine Brain Levels and Improves Memory in a Scopolamine-Induced Amnesia Model.

The beneficial effects of increasing histamine levels on memory have acquired special interest due to their applicability to psychiatric conditions that cause memory impairments. In addition, by employing drug repurposing approaches, it was demonstrated that dihydroergotamine (DHE), an FDA drug approved to treat migraines, inhibits Histamine N Methyl Transferase (HNMT), the enzyme responsible for the inactivation of histamine in the brain. For this reason, in the present work, the effect of DHE on histamine levels in the hippocampus and its effects on memory was evaluated, employing the scopolamine-induced amnesia model, the Novel Object Recognition (NOR) paradigm, and the Morris Water Maze (MWM). Furthermore, the role of histamine 1 receptor (H1R) and histamine 2 receptor (H2R) antagonists in the improvement in memory produced by DHE in the scopolamine-induced amnesia model was evaluated. Results showed that the rats that received DHE (10 mg/kg, i.p.) showed increased histamine levels in the hippocampus after 1 h of administration but not after 5 h. In behavioral assays, it was shown that DHE (1 mg/kg, i.p.) administered 20 min before the training reversed the memory impairment produced by the administration of scopolamine (2 mg/kg, i.p.) immediately after the training in the NOR paradigm and MWM. Additionally, the effects in memory produced by DHE were blocked by pre-treatment with pyrilamine (20 mg/kg, i.p.) administered 30 min before the training in the NOR paradigm and MWM. These findings allow us to demonstrate that DHE improves memory in a scopolamine-induced amnesia model through increasing histamine levels at the hippocampus due to its activity as an HNMT inhibitor.

Dihydroergotamine protects against ischemic stroke by modulating microglial/macrophage polarization and inhibiting inflammation in mice.

OBJECTIVES: The search for drugs that can protect the brain tissue and reduce nerve damage in acute ischemic stroke has emerged as a research hotspot. We investigated the potential protective effects and mechanisms of action of dihydroergotamine against ischemic stroke. METHODS: C57BL/6 mice were subjected to middle cerebral artery occlusion (MCAO), and dihydroergotamine at a dose of 10 mg/kg/day was intraperitoneally injected for 14 days. Adhesive removal and beam walking tests were conducted 1, 3, 5, 7, 10, and 14 days after MCAO surgery. Thereafter, the mechanism by which dihydroergotamine regulates microglia/macrophage polarization and inflammation and imparts ischemic stroke protection was studied using enzyme-linked immunosorbent assay, immunofluorescence staining, and western blotting. RESULTS: From the perspective of a drug repurposing strategy, dihydroergotamine was found to inhibit oxygen-glucose deprivation damage to neurons, significantly improve cell survival rate, and likely exert a protective effect on ischemic brain injury. Dihydroergotamine significantly improved neural function scores and survival rates and reduced brain injury severity in mice. Furthermore, dihydroergotamine manifests its protective effect on ischemic brain injury by reducing the expression of TNF-α and IL-1ß in mouse ischemic brain tissue, inhibiting the polarization of microglia/macrophage toward the M1 phenotype and promoting polarization toward the M2 phenotype. CONCLUSION: This study is the first to demonstrate the protective effect of dihydroergotamine, a first-line treatment for migraine, against ischemic nerve injury in vitro and in vivo.

The 5-HT1B and 5-HT1D agonists in acute migraine therapy: Ergotamine, dihydroergotamine, and the triptans.

The advent of the triptans revolutionized acute migraine treatment. The older migraine-specific drugs, the ergot alkaloids (ergotamine and dihydroergotamine), also relieve migraine attacks through agonism at the 5-HT1B and 5-HT1D receptors, but the triptans have much greater specificity for these receptors. Unlike the ergot alkaloids, the triptans do not activate many other receptor types, and therefore are much better tolerated. This reduction in side effects greatly enhanced their clinical utility as it allowed a far greater proportion of patients to take a full therapeutic dose. As a result, the clinical use of ergotamine is minimal today, although dihydroergotamine still has a significant clinical role. There is extensive evidence that the seven triptans available today, sumatriptan, zolmitriptan, rizatriptan, eletriptan, naratriptan, almotriptan, and frovatriptan, are effective in the acute treatment of migraine. Available formulations include oral tablets, orally dissolving tablets, subcutaneous injections, nasal sprays, and in some countries, rectal suppositories. For optimal benefit, therapy needs to be individualized for a given patient both regarding the triptan chosen and the formulation. This chapter discusses the ergot alkaloids and the triptans, including mechanism of action, evidence for efficacy, clinical use, and adverse effects.

A randomized, open-label, 5-period crossover study evaluating the pharmacokinetics and safety of a single dose of intranasal dihydroergotamine (DHE) powder (STS101), intramuscular DHE mesylate, and liquid nasal spray DHE in healthy adults.

OBJECTIVE: To compare the safety and pharmacokinetics (PK) of dihydroergotamine (DHE) after administration of intranasal DHE powder (STS101), liquid nasal spray (LNS) DHE mesylate, and intramuscular (IM) DHE mesylate injection in healthy participants. BACKGROUND: DHE is an effective acute migraine treatment; however, self-administration difficulties have prevented its broader role in the management of migraine. METHODS: This randomized, active-controlled, five-period crossover study was conducted over 5 weeks separated by 1-week washout periods. Three STS101 dosage strengths (5.2, 7.0, 8.6 mg), and one dose each of LNS DHE 2.0 mg, and IM DHE 1.0 mg, were administered to 36 healthy participants. Liquid chromatography, tandem mass spectrometry was used to determine DHE (including its 8'OH-DHE metabolite) plasma levels and to calculate PK parameters (Cmax , Tmax , AUC0-2h , AUC0-last , AUC0-inf , and t1/2 ). Safety was evaluated by monitoring adverse events (AEs), vital signs, electrocardiograms, nasal examinations, and laboratory parameters. RESULTS: Thirty-six participants (mean age 36 years; 19% Hispanic Black and 81% Hispanic White) were enrolled. DHE plasma concentrations rose rapidly after STS101 5.2, 7.0, and 8.6 mg and IM DHE injection, with mean concentrations greater than 2000 pg/mL for all STS101 dose strengths at 20 min. All STS101 dose strengths showed approximately 3-fold higher Cmax , AUC0-2h , and AUC0-inf , than the LNS DHE. The mean AUC0-inf of STS101 7.0 and 8.6 mg were comparable to IM DHE (12,600 and 13,200 vs. 13,400 h × pg/mL). All STS101 dose strengths showed substantially lower variability (CV%) compared to LNS DHE for Cmax (35%-41% vs. 87%), and AUC0-inf (37%-46% vs. 65%). STS101 was well tolerated, and all treatment-emergent AEs were mild and transient. CONCLUSION: STS101 showed rapid absorption and was well tolerated with mild and transient treatment-emergent AEs. Achieving effective DHE plasma concentrations within 10 min, STS101 displayed a favorable PK profile relative to the LNS with higher Cmax , AUC0-2h , and AUC0inf , and with greater response consistency. The AUC0-inf was comparable to IM DHE.

Dihydroergotamine ameliorates liver fibrosis by targeting transforming growth factor ß type II receptor.

BACKGROUND: The transforming growth factor ß (TGFß) signaling pathway plays a crucial role in the development of liver fibrosis by activating TGFß type II receptor (TGFßR2), followed by the recruitment of TGFßR1 finally triggering downstream signaling pathway. AIM: To find drugs targeting TGFßR2 that inhibit TGFßR1/TGFßR2 complex formation, theoretically inhibit TGFß signaling pathway, and thereby ameliorate liver fibrosis. METHODS: Food and Drug Administration-approved drugs were screened for binding affinity with TGFßR2 by virtual molecular docking. We identified 6 candidates and further explored their potential by Cell Counting Kit-8 (CCK-8) cell cytotoxic experiment to validate toxicity and titrated the best cellular working concentrations. Next, we further demonstrated the detailed molecular working mechanisms using mutagenesis analysis. Finally, we used a mouse model to investigate its potential anti-liver fibrosis effect. RESULTS: We identified 6 drug candidates. Among these 6 drugs, dihydroergotamine (DHE) shows great ability in reducing fibrotic gene expressions such as collagen, p-SMAD3, and α-SMA in TGFß induced cellular model of liver fibrosis in LX-2 cells. Furthermore, we demonstrated that DHE binds to TGFßR2. Moreover, mutation of Leu27, Phe30, Thr51, Ser52, Ile53, and Glu55 of TGFßR2 disrupted the binding of TGFßR2 with DHE. In addition, DHE significantly improved liver fibrosis, as evidenced by Masson's trichrome staining of liver sections. This is further supported by the width and the velocity of the portal vein, and serum markers of liver function. In line with those observations, DHE also decreased macrophages infiltration and extracellular matrix deposition in the liver. CONCLUSION: DHE alleviates liver fibrosis by binding to TGFßR2 thereby suppressing TGFß signaling pathway. We show here that as far as drug repurposing, DHE has great potential to treat liver fibrosis.

INP104: a drug evaluation of a nonoral product for the acute treatment of migraine.

Migraine is a highly prevalent, disabling neurological disorder that is also associated with gastrointestinal symptoms, autonomic dysfunction and allodynia. Despite the availability of multiple acute agents for migraine, an unmet need remains for effective, well-tolerated drugs that are nonoral and noninvasive. Here, we provide a drug evaluation of INP104, a novel drug-device combination product of dihydroergotamine (DHE) mesylate - a molecule with a long history of efficacy familiar to headache specialists - which is delivered to the difficult-to-reach upper nasal space where it is rapidly and consistently absorbed via Precision Olfactory Delivery (POD®). In clinical trials, INP104 exhibited favorable pharmacokinetics, a well-tolerated safety profile, and rapid symptom relief, highlighting its potential as a suitable acute therapy for migraine.

Migraine is a very common headache disorder that often presents with pain and gastrointestinal symptoms. There are many available treatments for migraine, but some patients still need an option that works well for them, that is noninvasive, or does not need to be taken orally. Here we provide a drug evaluation of INP104, an approved acute treatment for migraine that combines a drug and a device: the medication dihydroergotamine (DHE) mesylate, which has been used for decades for treating acute symptoms of migraine, and the Precision Olfactory Delivery (POD^®) device, which delivers DHE mesylate to the hard-to-reach upper regions of the nose. Targeting this region helps medication to be absorbed faster and more consistently. In clinical trials, INP104 demonstrated favorable drug properties, came with few adverse events, and provided fast relief from migraine symptoms.

Dihydroergotamine mesylate enhances the anti-tumor effect of sorafenib in liver cancer cells.

Liver cancer is the most common and frequentlyoccurring cancer. In addition to radiotherapy, chemotherapy and surgery are recommended as part of liver cancer treatment. The efficacy of sorafenib and sorafenib-based combination treatment against tumors has been verified. Although, clinical trials have revealed that some individuals are not sensitive to sorafenib therapy, and current therapeutic approaches are ineffective. Consequently, it is urgent to explore effective drug combinations and innovative techniques for increasing the effectiveness of sorafenib in the curing of liver tumor. Herein, we show that dihydroergotamine mesylate (DHE), an anti-migraine agent, could effectively suppress liver cancer cells proliferation by inhibiting STAT3 activation. However, DHE can enhance the protein stability of Mcl-1 by activating ERK, making DHE less effective in apoptosis induction. Specifically, DHE enhances the effects of sorafenib on liver cancer cells, such as decreased viability and increased apoptosis. Furthermore, the mixture of sorafenib and DHE could enhance DHE-triggered STAT3 suppression and inhibit DHE-mediated ERK-Mcl-1 pathway activation. In vivo, the combination of sorafenib with DHE produced a substantial synergy in suppressing tumour growth and causing apoptosis, ERK inhibition and Mcl-1 degradation. These findings suggest that DHE can effectively inhibit cell proliferation and enhance sorafenib anti-cancer activity in liver cancer cells. The current study provides some new insights that DHE asa novel anti-liver cancer therapeutic agent has been shown to improve treatment outcomes of sorafenib, which might be helpful in order to advance sorafenib in liver cancer therapeutics.

Drug Repurposing to Inhibit Histamine N-Methyl Transferase.

Lower activity of the histaminergic system is associated with neurological disorders, including Alzheimer's disease (AD). Thus, the enhancement of histaminergic neurotransmission by inhibition of histamine N-methyl transferase (HNMT), which degrades histamine, appears as an important approach. For this purpose, rigid and flexible molecular docking studies of 185 FDA-approved drugs with the HNMT enzyme were carried out to select two compounds to perform molecular dynamics (MD) simulations to evaluate the binding free energies and stability of the enzyme-drug complexes. Finally, an HNMT inhibition assay was performed to corroborate their effect towards HNMT. Molecular docking studies with HNMT allowed the selection of dihydroergotamine and vilazodone since these molecules showed the lowest Gibbs free energy values. Analysis of the binding mode of vilazodone showed interactions with the binding pocket of HNMT with Glu28, Gln143, and Asn283. In contrast, dihydroergotamine binds to the HNMT active site in a different location, apparently because it is overall the more rigid ligand compared to flexible vilazodone. HNMT inhibitory activity for dihydroergotamine and vilazodone was corroborated (IC50 = 72.89 µM and 45.01 µM, respectively) by in vitro assays. Drug repurposing of HNMT was achieved by employing computational studies.

Observational Analysis of the Costs Associated with Acute Treatment of Breakthrough Migraine Attacks in Medicaid Patients Using Preventive Therapies.

INTRODUCTION: Medications for preventive treatment of migraine reduce migraine frequency, usually measured by a reduction in monthly migraine days (MMD), but generally do not eliminate the need for acute treatment. To assess the economic impact of treatment-related reductions in frequency, methodological guidance recommends capturing cost differences along the spectrum of MMD. OBJECTIVE: Characterize monthly migraine medication costs along the spectrum of MMD for patients using calcitonin gene-related peptide (CGRP) monoclonal antibodies (mAbs) for prevention. METHODS: Medicaid State Drug Utilization Data (SDUD) were used to identify formulations and per-unit costs for oral, intranasal, and parenteral migraine-specific medications for acute and preventive treatment used by fee-for-service (FFS) Medicaid enrollees in 2020. National drug codes of relevant therapies were used to match SDUD to formulation characteristics including substance, route of administration, and branded/generic marketing status. Mean per-unit cost and the formulation's share of total prescriptions were estimated. Monthly medication costs were modeled based on formulations' per-unit costs and frequency of acute medication use during clinical trials of CGRP mAbs. RESULTS: In the SDUD, there were 563,338 prescriptions for migraine-specific acute medications; triptans accounted for 97.37%. Triptan formulations prescribed were 83.78% oral tablet, 10.89% orally disintegrating tablet, 2.60% intranasal, and 2.73% parenteral. Dihydroergotamine accounted for < 1% of total prescriptions and had the highest per-unit cost ($443.50, branded intranasal). There were 97,119 prescriptions for CGRP mAbs, the majority for erenumab (45.73%) or galcanezumab (45.24%). Modeled monthly acute and preventive medication costs ranged from approximately $550 in patients with the fewest MMD treated with oral triptans to > $1500 in patients with the most MMD treated with dihydroergotamine. CONCLUSION: In consideration of the migraine-specific acute medications used in FFS Medicaid 2020, for patients using CGRP mAbs for prevention, medication costs may vary significantly with the number of breakthrough attacks treated per month and the type of migraine-specific acute therapy used.

Peripheral Nerve Blocks: A Tool for Inpatient Pediatric Status Migrainosus.

BACKGROUND: To assess the efficacy and safety of peripheral nerve blocks in the inpatient settings for pediatric patients presenting with status migrainosus. METHODS: An analysis of a retrospective cohort of patients aged 13 to 18 years, admitted for status migrainosus from 2017 to 2022, was performed. Among the 1805 patients who presented with status migrainosus, 265 required hospital admission. A total of 177 patients failed the first- and second-line intravenous therapy and were treated with either peripheral nerve block (PNB) or dihydroergotamine (DHE) intravenous infusions. The primary outcome of the study was pain score level reduction by 50%, and the secondary outcome was duration of hospital stay. Visual analog scale score was used for pain assessment. RESULTS: Among the 177 patients, 100 patients were treated with DHE and 77 were treated with PNB. Target pain control was achieved in 59 of 100 patients receiving DHE and 38 of 77 patients receiving PNB. The average hospital stay of patients who responded to PNB was significantly lower compared with that of patients receiving DHE (3.6 days vs 4.9 days). Among the 41 patients who were refractory to DHE, 30 patients received PNB, of which 12 responded to nerve blocks. The most common side effects for PNBs were pain at injection site in 39% of patients and nausea/vomiting for DHE in 50% of patients. CONCLUSIONS: PNB can be safely administered in the hospital setting to pediatric patients with status migrainosus. PNB treatment helped achieve target pain control with minimal side effects and reduced the hospital stay duration.

Variability in recurrence rates with acute treatments for migraine: why recurrence is not an appropriate outcome measure.

BACKGROUND: Headache recurrence is a common feature of acute therapies, whether approved or still in development, and continues to be a significant problem for both the patient and the clinician. Further complicating this issue is lack of standardization in definitions of recurrence used in clinical trials, as well as disparity in patient characteristics, rendering a comparison of different acute medications challenging. Recurrence has serious clinical implications, which can include an increased risk for new-onset chronic migraine and/or development of medication overuse headache. The aim of this review is to illustrate variability of recurrence rates depending on prevailing definitions in the literature for widely used acute treatments for migraine and to emphasize sustained response as a clinically relevant endpoint for measuring prolonged efficacy. BODY: A literature search of PubMed for articles of approved acute therapies for migraine that reported recurrence rates was performed. Study drugs of interest included select triptans, gepants, lasmiditan, and dihydroergotamine mesylate. An unpublished post hoc analysis of an investigational dihydroergotamine mesylate product that evaluated recurrence rates using several different definitions of recurrence common in the literature is also included. Depending on the criteria established by the clinical trial and the definition of recurrence used, rates of recurrence vary considerably across different acute therapies for migraine, making it difficult to compare results of different trials to assess the sustained (i.e., over a single attack) and the prolonged (i.e., over multiple attacks) efficacy of a particular study medication. CONCLUSION: A standardized definition of recurrence is necessary to help physicians evaluate recurrence rates of different abortive agents for migraine. Sustained pain relief or freedom may be more comprehensive efficacy outcome measures than recurrence. Future efficacy studies should be encouraged to use the recommended definition of sustained pain freedom set by the International Headache Society.

Chronic Migraine: A Narrative Review on the Use of Botulinum Toxin with Clinical Indications and Future Directions.

Chronic migraine belongs to the "chronic long-duration headaches", and it is associated to high burden and significant economic impact. Treatment for both episodic (EM) and chronic migraine (CM) is based on the management of acute attacks and their prevention. For moderate/severe attacks, pharmacological therapies are triptans, dihydroergotamine nasal sprays or injections or neuroleptics, non-steroidal anti-inflammatory drugs, and corticosteroids. Chronic migraine belongs to the "chronic long-duration headaches", and it is associated to high burden and significant economic impact. Treatment for both episodic (EM) and chronic migraine (CM) is based on the management of acute attacks and their prevention. For moderate/severe attacks, pharmacological therapies are triptans, dihydroergotamine nasal sprays or injections or neuroleptics, non-steroidal anti-inflammatory drugs, and corticosteroids. The pathophysiology of CM is characterized by an abnormal activation of the trigemino-vascular system in the meninges causing a neurogenic inflammation, which explains the use of anti-inflammatory during attacks. It seems that the objective of the preventive therapy with the botulin toxin OnaBoNT-A consists in interrupting the release of CGRP and other neuropeptides as well as the activation of C-fiber nociceptor and of the nearby A-delta fibers. The protocol for migraine treatment with OnaBoNT-A injections consists of 31-39 pericranial injection sites involving seven muscle groups bilaterally in specific areas of the head and neck, with a total dose of between 155 and 195 units, every three months. The severe adverse events reported with high doses of botulin toxin for spasticity, have not been reported for CM treated with OnabotA at the labeled dose. The established improvement with onabotulinumtoxinA treatment in CM patients had a positive impact not only in reduction monthly headache days but also in improving quality of life, with reduction in both healthcare resource utilisation (HRU) and work impairment. Aim of this review was to give an overview on the use of BoNT-A in patients with CM, giving practical advices on the clinical indications.

Delivery of Dihydroergotamine Mesylate to the Upper Nasal Space for the Acute Treatment of Migraine: Technology in Action.

Oral tablets account for the majority of medications used to acutely treat migraine, but relief can be limited by their rates of dissolution and absorption. The nose is an attractive alternative route of drug delivery since it provides patient convenience of at-home use, gastrointestinal (GI) avoidance, and rapid absorption of drugs into systemic circulation because of its large surface area. However, the site of drug deposition within the nasal cavity should be considered since it can influence drug absorption. Traditional nasal devices have been shown to target drug delivery to the lower nasal space where epithelium is not best-suited for drug absorption and where there is an increased likelihood of drug clearance due to nasal drip, swallowing, or mucociliary clearance, potentially resulting in variable absorption and suboptimal efficacy. Alternatively, the upper nasal space (UNS) offers a permeable, richly vascularized epithelium with a decreased likelihood of drug loss or clearance due to the anatomy of this area. Traditional nasal pumps deposit <5% of active drug into the UNS because of the nasal cavity's complex architecture. A new technology, Precision Olfactory Delivery (POD®), is a handheld, manually actuated, propellant-powered, administration device that delivers drug specifically to the UNS. A dihydroergotamine (DHE) mesylate product, INP104, utilizes POD technology to deliver drug to the UNS for the acute treatment of migraine. Results from clinical studies of INP104 demonstrate a favorable pharmacokinetic profile, consistent and predictable dosing, rapid systemic levels known to be effective (similar to other DHE mesylate clinical programs), safety and tolerability on the upper nasal mucosa, and high patient acceptance. POD technology may have the potential to overcome the limitations of traditional nasal delivery systems, while utilizing the nasal delivery benefits of GI tract avoidance, rapid onset, patient convenience, and ease of use.

Development and Evaluation of an Integrated Outpatient Infusion Care Model for the Treatment of Pediatric Headache.

BACKGROUND: Care for pediatric patients with headache often occurs in high-cost settings such as emergency departments (EDs) and inpatient settings. Outpatient infusion centers have the potential to reduce care costs for pediatric headache management. METHODS: In this quality improvement study, we describe our experience in creating the capacity to support an integrated outpatient pediatric headache infusion care model through an infusion center. We compare costs of receiving headache treatment in this model with those in the emergency and inpatient settings. Because dihydroergotamine (DHE) is a costly infusion, encounters at which DHE was administered were analyzed separately. We track the number of ED visits and inpatient admissions for headache using run charts. As a balancing measure, we compare treatment efficacy between the infusion care model and the inpatient setting. RESULTS: The mean percentage increase in cost of receiving headache treatment in the inpatient setting with DHE was 61% (confidence interval [CI]: 30-99%), and that without DHE was 582% (CI: 299-1068%) compared with receiving equivalent treatments in the infusion center. The mean percentage increase in cost of receiving headache treatment in the ED was 30% (CI: -15 to 100%) compared with equivalent treatment in the infusion center. After the intervention, ED visits and inpatient admissions for headache decreased. The mean change in head pain was similar across care settings. CONCLUSIONS: Our findings demonstrate that developing an integrated ambulatory care model with infusion capacity for refractory pediatric headache is feasible, and our early outcomes suggest this may have a favorable impact on the overall value of care for this population.

Dihydroergotamine and triptan use to treat migraine during pregnancy and the risk of adverse pregnancy outcomes.

Migraine is prevalent during pregnancy. Antimigraine medications such as dihydroergotamine (DHE) and triptans have been associated with adverse pregnancy outcomes in individual studies but lack of consensus remains. We compared the risk of prematurity, low birth weight (LBW), major congenital malformations (MCM), and spontaneous abortions (SA) associated with gestational use of DHE or triptans. Three cohort and one nested-case-control analyses were conducted within the Quebec Pregnancy Cohort to assess the risk of prematurity, LBW, MCM, and SA. Exposure was defined dichotomously as use of DHE or triptan during pregnancy. Generalized estimation equations were built to quantify the associations, adjusting for potential confounders. 233,900 eligible pregnancies were included in the analyses on prematurity, LBW, and MCM; 29,104 cases of SA were identified. Seventy-eight subjects (0.03%) were exposed to DHE and 526 (0.22%) to triptans. Adjusting for potential confounders, DHE and triptans were associated with increased risks of prematurity, LBW, MCM, and SA but not all estimates were statistically significant. DHE was associated with the risk of prematurity (aRR: 4.12, 95% CI 1.21-13.99); triptans were associated with the risk of SA (aOR: 1.63, 95% CI 1.34-1.98). After considering maternal migraine, all antimigraine specific medications increased the risk of some adverse pregnancy outcomes, but estimates were unstable.

Dihydroergotamine affects spatial behavior and neurotransmission in the central nervous system of Wistar rats.

INTRODUCTION: Dihydroergotamine (DHE) is a derivative of an ergot alkaloid used as an antimigraine medication. Nowadays, ergot alkaloids may still endanger the safety of humans and animals as food or medicine pollutants, but the outcomes of long-term DHE administration on the behaviour and neurotransmission remain undescribed. MATERIAL AND METHODS: Adult male Wistar Albino Glaxo rats pre-treated orally with DHE for six weeks were investigated to assess the relationship between concentration of neurotransmitters and behavioural response. The behavioural effects of the drug administered at doses of either 30 µg/kg b.w. (group DHE30, n = 11) or 100 µg/kg b.w. per day (group DHE100, n = 10) were evaluated in the Morris Water Maze. It is known that monoaminergic neurotransmitters (serotonin, noradrenaline and dopamine) in some brain structures (prefrontal cortex, hippocampus, striatum, cerebellum, spinal cord) play a role in the control of cognitive and motor functions. The concentration of neurotransmitters was determined by High Performance Liquid Chromatography (HPLC). RESULTS: Administration of DHE influenced neither the learning processes nor memory in rats. Nevertheless, an increased motor activity of the DHE-administered animals was observed in both the cued and non-cued behavioural tasks. In HPLC examination, changes in the concentration of monoaminergic neurotransmitters and their metabolites were noted in all tested structures, except for the hippocampus. CONCLUSIONS: DHE is able to modulate noradrenergic, serotonergic and dopaminergic neurotransmission that may support the increase in locomotion.

STOP 301: A Phase 3, open-label study of safety, tolerability, and exploratory efficacy of INP104, Precision Olfactory Delivery (POD® ) of dihydroergotamine mesylate, over 24/52 weeks in acute treatment of migraine attacks in adult patients.

OBJECTIVE: To report the safety, tolerability, exploratory efficacy, and patient acceptability of INP104 for the acute treatment of migraine from the Phase 3 STOP 301 trial. BACKGROUND: Dihydroergotamine (DHE) has long been used to treat migraine, but intravenous administration is invasive, frequently associated with adverse events (AEs), and not suitable for at-home administration. INP104 is an investigational drug device that delivers DHE mesylate to the upper nasal space using a Precision Olfactory Delivery technology and was developed to overcome the shortcomings of available DHE products. METHODS: STOP 301 was an open-label, 24-week safety study, with a 28-week extension period. After a 28-day screening period where patients used their "best usual care" to treat migraine attacks, patients were given INP104 (1.45 mg) to self-administer nasally with self-recognized attacks. The primary objective of this study was to assess safety and tolerability, with a specific focus on nasal mucosa and olfactory function. Exploratory objectives included efficacy assessments of migraine measures and a patient acceptability questionnaire. RESULTS: A total of 360 patients entered the 24-week treatment period, with 354 patients dosing at least once. INP104-related treatment-emergent AEs were reported by 36.7% (130/354) of patients, and 6.8% (24/354) discontinued treatment due to AEs over 24 weeks. No new safety signals were observed following delivery to the upper nasal space. Pain freedom, the most bothersome symptom freedom, and pain relief at 2 h post-INP104 were self-reported by 38.0% (126/332), 52.1% (173/332), and 66.3% (167/252) of patients, respectively. A low recurrence rate at 24 and 48 h was observed (7.1% [9/126] and 14.3% [18/126], respectively). Most patients found INP104 easy to use and preferred it over their current therapy. CONCLUSIONS: INP104 has the potential to deliver rapid symptom relief, without injection, that is well tolerated and suitable for outpatient use. Results suggest INP104 may be a promising treatment for patients with migraine.

Identification of FDA approved drugs against SARS-CoV-2 RNA dependent RNA polymerase (RdRp) and 3-chymotrypsin-like protease (3CLpro), drug repurposing approach.

The RNA-dependent RNA polymerase (RdRp) and 3C-like protease (3CLpro) from SARS-CoV-2 play crucial roles in the viral life cycle and are considered the most promising targets for drug discovery against SARS-CoV-2. In this study, FDA-approved drugs were screened to identify the probable anti-RdRp and 3CLpro inhibitors by molecular docking approach. The number of ligands selected from the PubChem database of NCBI for screening was 1760. Ligands were energy minimized using Open Babel. The RdRp and 3CLpro protein sequences were retrieved from the NCBI database. For Homology Modeling predictions, we used the Swiss model server. Their structure was then energetically minimized using SPDB viewer software and visualized in the CHIMERA UCSF software. Molecular dockings were performed using AutoDock Vina, and candidate drugs were selected based on binding affinity (∆G). Hydrogen bonding and hydrophobic interactions between ligands and proteins were visualized using Ligplot and the Discovery Studio Visualizer v3.0 software. Our results showed 58 drugs against RdRp, which had binding energy of - 8.5 or less, and 69 drugs to inhibit the 3CLpro enzyme with a binding energy of - 8.1 or less. Six drugs based on binding energy and number of hydrogen bonds were chosen for the next step of molecular dynamics (MD) simulations to investigate drug-protein interactions (including Nilotinib, Imatinib and dihydroergotamine for 3clpro and Lapatinib, Dexasone and Relategravir for RdRp). Except for Lapatinib, other drugs-complexes were stable during MD simulation. Raltegravir, an anti-HIV drug, was observed to be the best compound against RdRp based on docking binding energy (-9.5 kcal/mole) and MD results. According to the MD results and binding energy, dihydroergotamine is a suitable candidate for 3clpro inhibition (-9.6 kcal/mol). These drugs were classified into several categories, including antiviral, antibacterial, anti-inflammatory, anti-allergic, cardiovascular, anticoagulant, BPH and impotence, antipsychotic, antimigraine, anticancer, and so on. The common prescription-indications for some of these medication categories appeared somewhat in line with manifestations of COVID-19. We hope that they can be beneficial for patients with certain specific symptoms of SARS-CoV-2 infection, but they can also probably inhibit viral enzymes. We recommend further experimental evaluations in vitro and in vivo on these FDA-approved drugs to assess their potential antiviral effect on SARS-CoV-2.