Intranasal delivery of phenytoin loaded layered double hydroxide nanoparticles improves therapeutic effect on epileptic seizures.

Improving the efficiency of antiseizure medication entering the brain is the key to reducing its peripheral toxicity. A combination of intranasal administration and nanomedicine presents a practical approach for treating epileptic seizures via bypassing the blood-brain barrier. In this study, phenytoin (PHT) loaded layered double hydroxide nanoparticles (BSA-LDHs-PHT) were fabricated via a coprecipitation - hydrothermal method for epileptic seizure control. In this study, we expound on the preparation method and characterization of BSA-LDHs-PHT. In-vitro drug release experiment shows both rapid and continuous drug release from BSA-LDHs-PHT, which is crucial for acute seizure control and chronic epilepsy therapy. In-vivo biodistribution assays after intranasal administration indicate excellent brain targeting ability of BSA-LDHs. Compared to BSA-Cyanine5.5, BSA-LDHs-Cyanine5.5 were associated with a higher brain/peripheral ratio across all tested time points. Following intranasal delivery with small doses of BSA-LDHs-PHT, the latency of seizures in the pentylenetetrazole-induced mouse models was effectively improved. Collectively, the present study successfully designed and applied BSA-LDHs-PHT as a promising strategy for treating epileptic seizures with an enhanced therapeutic effect.

Topical phenytoin improves wound healing with analgesic and antibacterial properties and minimal side effects: a systematic review.

BACKGROUND: Although phenytoin's potential benefits in wound healing, pain relief, and infection control across various wound types have been previously reported, its use in wound care remains limited. OBJECTIVE: To conduct a comprehensive review to assess the efficacy of topical phenytoin compared with standard and alternative treatments for different wound types. MATERIALS AND METHODS: The authors last searched Cochrane Library, PubMed, PubMed Central, and MEDLINE in June 2023. All English-language human RCTs and NRCTs from any time were included. The RoB 2 was used to assess quality of randomized trials, and the ROBINS-I was used to assess the quality of nonrandomized trials. Studies with a low risk of bias or some concerns in no more than 1 domain were included. Data collected and analyzed included wound type, interventions, sample size, outcome measures, and adverse effects. RESULTS: The search yielded 101 studies, of which 17 RCTs and 8 NRCTs were eligible for inclusion. Of the included studies, 56% had a low risk of bias in all domains. The sample sizes varied between 20 and 130 (median, 60), with a total sample size of 1653 patients. Phenytoin improved wound healing in 17 of the 24 studies that evaluated it (71%), increased granulation tissue in 9 of the 10 studies that evaluated it (90%), provided analgesic effects in 7 of the 13 studies that evaluated it (54%), and inhibited bacterial contaminants in 6 of the 8 studies that evaluated it (75%). Adverse effects were rare (29%), minimal, and transient. CONCLUSION: Phenytoin enhances wound healing and offers analgesic and antibacterial properties with minimal adverse effects. Further research is needed on optimal dosage of phenytoin, as well as frequency, delivery vehicles, and effects on other postoperative wounds. BACKGROUND: Although phenytoin's potential benefits in wound healing, pain relief, and infection control across various wound types have been previously reported, its use in wound care remains limited. OBJECTIVE: To conduct a comprehensive review to assess the efficacy of topical phenytoin compared with standard and alternative treatments for different wound types. MATERIALS AND METHODS: The authors last searched Cochrane Library, PubMed, PubMed Central, and MEDLINE in June 2023. All English-language human RCTs and NRCTs from any time were included. The RoB 2 was used to assess quality of randomized trials, and the ROBINS-I was used to assess the quality of nonrandomized trials. Studies with a low risk of bias or some concerns in no more than 1 domain were included. Data collected and analyzed included wound type, interventions, sample size, outcome measures, and adverse effects. RESULTS: The search yielded 101 studies, of which 17 RCTs and 8 NRCTs were eligible for inclusion. Of the included studies, 56% had a low risk of bias in all domains. The sample sizes varied between 20 and 130 (median, 60), with a total sample size of 1653 patients. Phenytoin improved wound healing in 17 of the 24 studies that evaluated it (71%), increased granulation tissue in 9 of the 10 studies that evaluated it (90%), provided analgesic effects in 7 of the 13 studies that evaluated it (54%), and inhibited bacterial contaminants in 6 of the 8 studies that evaluated it (75%). Adverse effects were rare (29%), minimal, and transient. CONCLUSION: Phenytoin enhances wound healing and offers analgesic and antibacterial properties with minimal adverse effects. Further research is needed on optimal dosage of phenytoin, as well as frequency, delivery vehicles, and effects on other postoperative wounds.

Comparative efficacy of Salix aegyptiaca's active compound versus phenytoin in healing full-thickness rat skin wounds: An animal model study.

BACKGROUND: Wound healing poses a challenging therapeutic scenario, requiring diverse clinical approaches. OBJECTIVES: This study aims to assess the wound-healing potential of Salix aegyptiaca's flower ointment compared to phenytoin, considering the active constituents of S. aegyptiaca and its traditional usage. METHODS: Initially, the active components of S. aegyptiaca were isolated and identified through the GC-MS technique. Subsequently, for the experimental intervention, thirty-five rats were divided into five distinct groups: control (C), phenytoin (F), and three S. aegyptiaca ointment groups at different concentrations (5 % - S5, 25 % - S25, and 50 % - S50). Anesthesia was administered, and wounds were induced on the animals' necks following a standard procedure. These wounds were then treated for a duration of 21 days. Wound healing progress was quantified, and histopathological assessments were conducted using hematoxylin and eosin staining and Mason's trichrome staining. RESULTS: The main active compounds of S. aegyptiaca, namely n-hexadecanoic acid and oleic acid, were identified via GC-MS analysis. Although the initial group weights did not show a significant difference (P = 0.271), a significant variation was observed in the final weights (P = 0.003). The S50 group exhibited a lower wound healing rate than the S25 group on the 7th and 14th days but surpassed it on the 21st day (C < F < S5≈S25

Is phenytoin a safe agent for staple line recovery after gastric sleeve surgery in rats?

BACKGROUND: The most challenging and mortal complication of gastric sleeve surgery (SG) is staple line leakage. Although many agents have been used for increasing tissue healing on the stapler line, there is still no consensus on its effectiveness and efficacy. The aim of study is to determine the effect of phenytoin on the healing process of gastric sleeve surgery in rats. METHODS: On the 10th post-operative day, the effects of phenytoin on bursting pressure in the stapler line were evaluated along-side pathohistological examinations. To investigate the molecular impact of phenytoin on the expression of TGF-ß, VEGF, FGF2, and p53 genes, quantitative real-time polymerase chain reaction was utilized. In addition, gene expressions at the protein level were deter-mined by immunohistochemical analysis. RESULTS: No signs of intra-abdominal leakage were observed in the resected samples. A statistically essential extend in stable line bursting pressure measure was observed between the control group and the group treated with phenytoin application. Pathohisto-logical results indicate that the mean score of collagens of the study group (3.2±0.42) was significantly higher than the control group (2.3±0.48) (P=0.003). In addition, the mean epithelization score of the study group (3.4±0.52) was significantly higher than the control group (2.1±0.57) (P=0.001). mRNA of TGFß, FGF2, VEGF, and p53 genes drastically increased phenytoin treated group. High FGF2 protein expression levels were determined from phenytoin use compared to the control group. CONCLUSION: Molecular studies suggest that phenytoin may increase the healing process of Gastric sleeve following SG in rats and may become a new agent for the prevention of human gastric leaks.

Comparative Analysis of Anticonvulsant Activity of Trans and Cis 5,5'-Diphenylhydantoin Schiff Bases.

Recently, the four 5,5'-diphenylhydantoin Schiff bases, possessing different aromatic species (SB1-Ph, SB2-Ph, SB3-Ph and SB4-Ph) were synthesized, characterized, and evaluated for anticonvulsant activity in combination with phenytoin. In the present study, the SB1-Ph and SB4-Ph compounds were selected, based on their anticonvulsant potency, and compared with their cis isomers, prepared after a one-hour exposure to the UV source, for their anticonvulsant potency in the maximal electroshock (MES) test and the kainate (KA)-induced status epilepticus (SE) test in mice. In the MES test, the cisSB1-Ph compound exhibited superior to phenytoin and trans isomer activity in the three tested doses, while the cisSB4-Ph compound entirely suppressed the electroshock-induced seizure spread at the highest dose of 40 mg/kg. Pretreatment with the cisSB1-Ph compound and the cisSB4-Ph at the doses of 40 mg/kg, respectively, for seven days, significantly attenuated the severity of KA SE compared to the matched control group pretreated with a vehicle, while phenytoin was ineffective in this test. The cisSB4-Ph but not the cisSB1-Ph demonstrated an antioxidant effect against the KA-induced SE in the hippocampus. Our results suggest that trans-cis conversion of 5,5'-diphenylhydantoin Schiff bases has potential against seizure spread in the MES test and mitigated the KA-induced SE. The antioxidant potency of cisSB4-Ph might be associated with its efficacy in mitigating the SE.

Revealing how phenytoin triggers liver damage and the potential protective effects of Balanites Aegyptiaca fruit extracts: Exploring Nrf2/MAPK/ Beclin-1 signaling pathways.

Phenytoin-induced liver injury (PHT ILII) is a serious condition that may necessitate discontinuation of the drug. This study investigates the mechanisms of PHT ILII and evaluates the protective effects of Balanites Aegyptiaca (BA) fruit extracts on the liver. We focus on the Nrf2/MAPK/NF-κB/Beclin-1 signaling pathways involved in oxidative stress and inflammation from drug-induced liver injury. Phytochemical analyses of BA fruit extracts (Bu-F and EA-F) are conducted. Molecular docking techniques explore the interaction between phenytoin (PHT) and the Nrf2/MAPK/NF-κB/Beclin-1 pathways. Thirty-six male rats are divided into Control, Bu-F, EA-F, PHT, Bu-F/PHT, and EA-F/PHT groups, and they are observed for 45 days. EA-F extract is rich in phenolics/flavonoids, while Bu-F extract mainly contains saponins.PHT ILII causes histological damage in liver tissues and affects Nrf-2, MAPK, TNF-α, IL-1ß, Mcp-1, Beclin-1, iNOS expression, and liver function markers (ALT, AST, ALP). However, EA-F/Bu-F extracts effectively improve the histological structure and significantly reduce biochemical/immunohistochemical parameters, restoring them to near-normal levels. EA-F extract is particularly effective.In conclusion, the Nrf2/MAPK /Beclin-1 pathways play a critical role in the development of PHT ILII. BA fruit extracts show promise as hepato-protective agents, with the EA-F extract demonstrating superior efficacy. These results lay the groundwork for new treatments for PHT ILII and drug-induced liver injuries.

Calcium Phosphate-Based Nanoformulation Selectively Abolishes Phenytoin Resistance in Epileptic Neurons for Ceasing Seizures.

Phenytoin (PHT) is a first-line antiepileptic drug in clinics, which could decrease neuronal bioelectric activity by blocking the voltage-operated sodium channels. However, the intrinsically low blood-brain-barrier (BBB)-crossing capability of PHT and upregulated expression level of the efflux transporter p-glycoprotein (P-gp) coded by the gene Abcb1 in epileptic neurons limit its efficacy in vivo. Herein, a nanointegrated strategy to overcome PHT resistance mechanisms for enhanced antiepileptic efficacy is reported. Specifically, PHT is first incorporated into calcium phosphate (CaP) nanoparticles through biomineralization, followed by the surface modification of the PEGylated BBB-penetrating TAT peptide. The CaP@PHT-PEG-TAT nanoformulation could effectively cross the BBB to be taken in by epileptic neurons. Afterward, the acidic lysosomal environment would trigger their complete degradation to release Ca2+ and PHT into the cytosol. Ca2+ ions would inhibit mitochondrial oxidative phosphorylation to reverse cellular hypoxia to block hypoxia-inducible factor-1α (Hif1α)-Abcb1-axis, as well as disrupt adenosine triphosphate generation, leading to simultaneous suppression of the expression and drug efflux capacity of P-gp to enhance PHT retention. This study offers an approach for effective therapeutic intervention against drug-resistant epilepsy.

Sasa veitchii extracts protect phenytoin-induced cell proliferation inhibition in human lip mesenchymal cells through modulation of miR-27b-5p.

A cleft lip, with or without a cleft palate, is a common birth defect caused by environmental factors or genetic mutations. Environmental factors, such as pharmaceutical exposure in pregnant women, are known to induce cleft lip, with or without cleft palate in the child. This study aimed to investigate the protective effect of Sasa veitchii extract (SE) on phenytoin-induced inhibition of cell proliferation in human lip mesenchymal cells (KD cells) and human embryonic palatal mesenchymal cells (HEPM cells). We demonstrated that cell proliferation was inhibited by phenytoin in a dose-dependent manner in both KD and HEPM cells. Co-treatment with SE restored phenytoin-induced toxicity in KD cells but did not protect HEPM cells against phenytoin-induced toxicity. Several microRNAs (miR-27b, miR-133b, miR-205, miR-497-5p, and miR-655-3p) is reported to associate with cell proliferation in KD cells. We measured the seven kinds of microRNAs (miR27b-3p, miR-27b-5p, miR-133b, miR-205-3p, miR-205-5p, miR-497-5p, and miR-655-3p) and found that SE suppressed miR-27b-5p induced by phenytoin in KD cells. Furthermore, co-treatment with SE enhanced the expression of miR-27b-5p downstream genes (PAX9, RARA, and SUMO1). These results suggest that SE protects phenytoin-induced cell proliferation inhibition by modulating miR-27b-5p.

Transcranial focused ultrasound-mediated unbinding of phenytoin from plasma proteins for suppression of chronic temporal lobe epilepsy in a rodent model.

The efficacy of many anti-epileptic drugs, including phenytoin (PHT), is reduced by plasma protein binding (PPB) that sequesters therapeutically active drug molecules within the bloodstream. An increase in systemic dose elevates the risk of drug side effects, which demands an alternative technique to increase the unbound concentration of PHT in a region-specific manner. We present a low-intensity focused ultrasound (FUS) technique that locally enhances the efficacy of PHT by transiently disrupting its binding to albumin. We first identified the acoustic parameters that yielded the highest PHT unbinding from albumin among evaluated parameter sets using equilibrium dialysis. Then, rats with chronic mesial temporal lobe epilepsy (mTLE) received four sessions of PHT injection, each followed by 30 min of FUS delivered to the ictal region, across 2 weeks. Two additional groups of mTLE rats underwent the same procedure, but without receiving PHT or FUS. Assessment of electrographic seizure activities revealed that FUS accompanying administration of PHT effectively reduced the number and mean duration of ictal events compared to other conditions, without damaging brain tissue or the blood-brain barrier. Our results demonstrated that the FUS technique enhanced the anti-epileptic efficacy of PHT in a chronic mTLE rodent model by region-specific PPB disruption.

Synthesis, molecular docking, ADMET evaluation and in vitro cytotoxic activity evaluation on RD and L20B cell lines of 3-substituted 5,5-diphenylimidazolidine-2,4-dione derivatives.

Hydantoins comprise an important class of compounds which have long attracted attention due to their remarkable biological and pharmacological properties including antitumor and antiviral activities. As a continuation of our studies on hydantoins derivatives we report the successful synthesis of hydantoins derivatives. These synthesized compounds were evaluated for their cytotoxic activity against Vero cells L20B (African green monkey kidney cell line) and Human Rhabdomyosarcoma RD cell lines using methotrexate drug (MTX) as a reference drug in cytotoxic activity studies. The percentage of the cell line viability was carried out by using Trypan blue dye exclusion method. The tested compounds showed equipotent cytotoxicity effect against Vero cells (L20B) and a moderate effect against Human Rhabdomyosarcoma (RD) cell lines. These results exhibited better activity for 4a-b compounds than the reference drug methotrexate (MTX). Molecular docking studies indicated that the synthesized compounds are suitable inhibitors of humain dihydrofolate reductase (DHFR) enzyme, which may explain the high antiproliferative activity.Communicated by Ramaswamy H. Sarma.

Ranolazine Interacts Antagonistically with Some Classical Antiepileptic Drugs-An Isobolographic Analysis.

Ranolazine, an antianginal and antiarrhythmic drug blocking slow inactivating persistent sodium currents, is described as a compound with anticonvulsant potential. Since arrhythmia often accompanies seizures, patients suffering from epilepsy are frequently co-treated with antiepileptic and antiarrhythmic drugs. The aim of this study was to evaluate the effect of ranolazine on maximal-electroshock (MES)-induced seizures in mice as well as interactions between ranolazine and classical antiepileptic drugs in this model of epilepsy. Types of pharmacodynamic interactions were established by isobolographic analysis of obtained data. The main findings of the study were that ranolazine behaves like an antiseizure drug in the MES test. Moreover, ranolazine interacted antagonistically with carbamazepine, phenytoin, and phenobarbital in the proportions of 1:3 and 1:1. These interactions occurred pharmacodynamic, since ranolazine did not change the brain levels of antiepileptic drugs measured in the fluorescence polarization immunoassay. Ranolazine and its combinations with carbamazepine, phenytoin, and phenobarbital did not impair motor coordination evaluated in the chimney test. Unfortunately, an attempt to conduct a passive avoidance task (evaluating long-term memory) resulted in ranolazine-induced delayed lethality. In conclusion, ranolazine exhibits clear-cut anticonvulsant properties in the MES test but interacts antagonistically with some antiepileptic drugs. The obtained results need confirmation in clinical studies. The mechanisms of ranolazine-induced toxicity require specific explanation.

Insulin potentiates the anticonvulsive activity of phenytoin against maximal electroshock-induced seizures in mice.

INTRODUCTION: The limitations imposed by the blood-brain barrier (BBB) on the sufficient accumulation of antiepileptic drugs (AEDs) in the epileptogenic focus is considered the major cause of the high percentage of morbidity and mortality cases among epilepsy patients. This study aimed at examining the potential effect of insulin on the anticonvulsant action of phenytoin (PHT) in the mouse maximal electroshock-induced seizure model. SUBJECTS AND METHODS: PHT was administered orally in single doses either alone or in combination with insulin given as single intraperitoneal injections. To assess the anticonvulsant activity of PHT, the ED50 values were calculated. The current strength (CS50) threshold for insulin was also estimated. The animals were sacrificed, and the brains were removed to measure their PHT concentrations in the brain. RESULTS: It has been demonstrated that insulin (in all used doses) has no effect on the CS50 but can cause a significant increase in concentrations of PHT in the brain and potentiate the antiepileptic efficiency of this drug in electroshock-induced models of epilepsy in mice. CONCLUSIONS: The combination of insulin with PHT may be of great importance for developing new treatment possibilities following further investigations with other animal models of epilepsy and preclinical studies. Further research is also needed to explore the concentrations of PHT in the brain and the anticonvulsant activity of this drug against maximal electroshock seizures in diabetic mice.

Does long-term phenytoin have a place in Dravet syndrome?

Anti-seizure medications that block sodium channels are generally considered contraindicated in Dravet syndrome. There is, however, considerable debate about the sodium-channel blocker phenytoin, which is often used for status epilepticus, a frequent feature of Dravet syndrome. We describe four patients with Dravet syndrome in whom long-term phenytoin therapy reduced seizure frequency and duration. In two patients, phenytoin produced prolonged periods without status epilepticus for the first time. Attempting to wean phenytoin in all patients after 1 to 20 years of use resulted in seizure exacerbation. Reintroducing phenytoin improved seizure control, suggesting phenytoin is beneficial in some patients with Dravet syndrome.

Caffeine intoxication: Behavioral and electrocorticographic patterns in Wistar rats.

Caffeine is a psychoactive substance used worldwide. The present study analyzes the seizure-related behavior and electrocorticographic (ECoG) patterns observed in rats following of a toxic dose of caffeine (150 mg/kg; intraperitoneal). Sixty-three rats were divided into three experiments: 1-Behavior's Description associated with caffeine-induced convulsion; 2- Comparison of the electrocorticographic patterns induced by caffeine and pentylenetetrazole, and 3- Assessment of the electrocorticographic response to antiepileptic drugs (diazepam, phenytoin, and phenobarbital). The behavioral analysis demonstrated tonic-clonic seizures with a loss of postural reflex and a latency of 365.8 s after the caffeine's administration. Caffeine-induced changes in the ECoG were consistent with the development of seizures with rapid evolution and burst potential consistent with the behavioral patterns observed during the caffeine-induced seizure. The ECoG of the brainwaves varied significantly between the seizures caused by caffeine and pentylenetetrazole. The predominant brain forces observed during the seizures were beta-band oscillations. The caffeine-induced seizures were resistant to attempted control with phenytoin and phenobarbital, but responded well to diazepam, which is consistent with a study of Pilocarpine, which showed that diazepam has anticonvulsant effects. These findings are important for the development of effective treatments for caffeine intoxication, in particular for individuals with a low seizure threshold.

Determination of the effectiveness of Dorema ammoniacum gum on wound healing: an experimental study.

OBJECTIVE: For a long time, natural compounds have been used to accelerate wound healing. In this study, the topical effects of ammoniacum gum extract on wound healing were investigated in white male rats. METHOD: Following skin wound induction in aseptic conditions, 48 Wistar rats were divided into six equal groups; phenytoin cream 1% (standard), untreated (control), Eucerin (control), and 5%, 10% and 20% ointments of Dorema ammoniacum gum extract (treatment groups). All experimental groups received topical drugs daily for 14 days. The percentage of wound healing, hydroxyproline content, histological parameters, and growth factors (endothelial growth factor (EGF), platelet-derived growth factor (PDGF), vascular endothelial growth factor (VEGF) and transforming growth factor (TGF)-α) were measured in experimental groups. RESULTS: The areas of the wounds in the treatment groups were significantly decreased compared with the wound areas of control groups at 5, 7 and 10 days after wounding. On the 12th day, the wounds in the treatment groups were completely healed. Hydroxyproline contents were significantly increased in the treatment groups compared with the control groups (p<0.001). In histological evaluation, the re-epithelialisation, increasing thickness of the epithelial layer, granulation tissue and neovascularisation parameters in the treatment groups showed significant increases compared with the control groups. Also, serum levels of TGF-ß, PDGF, EGF and VEGF in the treatment groups were significantly increased compared to the control groups. CONCLUSION: The topical application of ammoniacum gum extract significantly increases the percentage of wound healing in rats and reduces the time of wound closure.

The Prevention and Reversal of a Phenytoin-Resistant Model by N-acetylcysteine Therapy Involves the Nrf2/P-Glycoprotein Pathway at the Blood-Brain Barrier.

The transporter hypothesis is one of the most popular hypotheses of drug-resistant epilepsy (DRE). P-glycoprotein (P-gp), a channel protein at the blood-brain barrier (BBB), plays an important role in the transport of some anti-seizure drugs from brain tissue into vessels, which reduces drug concentrations and diminishes the effects of drug treatment. We performed this study to test whether P-gp is overexpressed in DRE and identify ways to prevent and reverse DRE. In this study, we established a phenytoin (PHT)-resistant mouse model and revealed that P-gp was overexpressed at the BBB in PHT-resistant mice. The P-gp inhibitor nimodipine decreased the resistance of phenytoin. Antioxidative preventive treatment with N-acetylcysteine (NAC) prevented the mice from entering a PHT-resistant state, and NAC therapy tended to reverse PHT resistance into sensitivity. We were also able to induce PHT resistance by activating the Nrf2/P-gp pathway, which indicates that oxidative stress plays an important role in drug resistance. Taken together, these findings suggest that antioxidative therapy may be a promising strategy for overcoming DRE.

Investigation of the effects of post-operative intraperitoneal, oral, and rectal phenytoin administration on colorectal anastomosis in rats.

BACKGROUND: Anastomotic leakage is the most feared complication after colonic anastomosis. The purpose of the study is to determine the effects of phenytoin applied by different application routes, on the healing process of colorectal anastomoses. METHODS: Wistar Albino rats were divided into Intraperitoneal Phenytoin Group, Oral Phenytoin Group (OAP), Rectal Phenytoin Group (RAP), and control groups. The molecular effect of phenytoin on the expression of vascular endothelial growth factor (VEGF), transforming growth factor-beta (TGF-ß), fibroblast growth factor 2 (FGF2), and p53 genes was evaluated at mRNA and protein level. The effects of phenytoin on anastomotic bursting pressure analysis measured as well as pathohistological examinations. RESULTS: There are statistically significant increase in anastomotic bursting pressure values between control and application groups. Inflammatory cell infiltration of all groups increased in the intestinal anastomosis region compared to control. Collagen scores were found to be significantly higher in the OAP and RAP groups compared to the control group. mRNA of TGF-ß and FGF2 expression increased in all routes of phenytoin applications. CONCLUSION: Three different administration routes show considerably increase on the bursting pressure. Regarding the results of the expression of FGF2, TGF-ß, p53, and VEGF genes, there is a significant increase FGF2 and TGF-ß at mRNA and protein level in most administration routes.

Synthesis and CNS Activity of Phenytoin Derivatives.

BACKGROUND: The derivatives of Phenytoin conjugated with various anilines were synthesized. The synthesized derivatives were evaluated for different physicochemical parameters along with log P values using different software programs to discover their ability to cross the blood brain barrier. The pharmacological activities such as antianxiety, skeletal muscle relaxant and anticonvulsant were evaluated by using different models. OBJECTIVE: The new Phenytoin derivatives were synthesized and evaluated for different properties to predict CNS activity. The drugs synthesized by chloroacetylation and then different aniline were added to it. The compounds were evaluated for their different CNS activity by using different methods. METHODS: The compounds were synthesized by firstly chloroacetylating the phenytoin and then different substituted anilines were added to it. The compounds were evaluated for antianxiety activity, muscle relaxant activity and anticonvulsant activity by using different models. RESULTS: The number of derivatives of Phenytoin was synthesized and various physicochemical parameters were optimized which revealed that the compound containing chloro groups such as C2 and C5 exhibited significant potential when compared with the standard drug Diazepam. CONCLUSION: It was portrayed that the synthesis, computational studies and evaluation of anticonvulsant, antianxiety and skeletal muscle relaxant activity of new Phenytoin derivatives were carried out. The compounds were productively synthesized and portrayed by molecular docking studies. The compounds also exhibit mild to moderate similarity with respect to standard drug. The synthesized drugs have the potential to be optimized further to engender new scaffolds to treat various CNS disorders.

Phenytoin Is Promoting the Differentiation of Dental Pulp Stem Cells into the Direction of Odontogenesis/Osteogenesis by Activating BMP4/Smad Pathway.

Background: The purpose of this study was the evaluation of the potential and mechanism of phenytoin to promote differentiation of human dental pulp stem cells (hDPSC) into odontoblasts/osteoblasts. Methods: Fourth-generation human hDPSC originating from healthy pulp of third molars was cultured in control as well as phenytoin-containing media (PHT) for 14 days. qPCR was applied to detect the expression of DSPP, DMP1, and ALP genes. Western blot analysis was used to confirm the findings. One-way analysis of variance (ANOVA) was used for statistical analysis (p < 0.05). Information about phenytoin was assessed from PubChem database, while targets of phenytoin were assessed from six databases. Drug targets were extracted based on the differentially expressed genes (‖logFC‖ ≥ 1, p < 0.05) in the experimental group (50 mg/L PHT, 14 days). GO BP and KEGG pathway enrichment analysis on the obtained drug targets was performed and the target protein functional network diagram was constructed. Results: A concentration below 200 mg/L PHT had no obvious toxicity to hDPSC. The expression of DSPP, DMP1, and ALP genes in the 50 mg/L PHT concentration group increased significantly. The WB experiment showed that the protein content of BMP4, Smad1/5/9, and p-Smad1/5 was significantly increased in 50 mg/L PHT in comparison with the NC group (the group without treatment of PHT) at 14 days. Conclusion: Phenytoin has the ability of promoting the differentiation of hDPSC into odontoblasts and osteoblasts. BMP4/Smad pathway, inducing odontogenic/osteogenic differentiation of hDPSC, appears a main process in this context.

Phenytoin promotes the proliferation of oligodendrocytes and enhances the expression of myelin basic protein in the corpus callosum of mice demyelinated by cuprizone.

Oligodendrocyte loss and myelin sheet destruction are crucial characteristics of demyelinating diseases. Phenytoin promotes the proliferation of endogenous neural precursor cells in the ventricular-subventricular zone in the postnatal brain that help restore the oligodendroglial population. This study aimed to evaluate whether phenytoin promotes myelin recovery of the corpus callosum of demyelinated adult mice. CD1 male mice were exposed to a demyelinating agent (0.2% cuprizone) for 8 weeks. We assembled two groups: the phenytoin-treated group and the control-vehicle group. The treated group received oral phenytoin (10 mg/kg) for 4 weeks. We quantified the number of Olig2 + and NG2 + oligodendrocyte precursor cells (OPCs), Rip + oligodendrocytes, the expression level of myelin basic protein (MBP), and the muscle strength and motor coordination. The oligodendroglial lineage (Olig2 + cells, NG2 + cells, and RIP + cells) significantly increases by the phenytoin administration when compared to the control-vehicle group. The phenytoin-treated group also showed an increased expression of MBP in the corpus callosum and better functional scores in the horizontal bar test. These findings suggest that phenytoin stimulates the proliferation of OPCs, re-establishes the oligodendroglial population, promotes myelin recovery in the corpus callosum, and improves motor coordination and muscle strength.