Nicotine-mediated therapy for Parkinson’s disease in transgenic Caenorhabditis elegans model

Parkinson’s disease resultant in the degeneration of Dopaminergic neurons and accumulation of α-synuclein in the substantia nigra pars compacta. The synthetic therapeutics for Parkinson’s disease have moderate symptomatic benefits but cannot prevent or delay disease progression. In this study, nicotine was employed by using transgenic Caenorhabditis elegans Parkinson’s disease models to minimize the Parkinson’s disease symptoms. The results showed that the nicotine at 100, 150, and 200 μM doses reduced degeneration of Dopaminergic neurons caused by 6-hydroxydopamine (14, 33, and 40%), lowered the aggregative toxicity of α-synuclein by 53, 56, and 78%, respectively. The reduction in food-sensing behavioral disabilities of BZ555 was observed to be 18, 49, and 86%, respectively, with nicotine concentrations of 100 μM, 150 μM, and 200 μM. Additionally, nicotine was found to enhance Daf-16 nuclear translocation by 14, 31, and 49%, and dose-dependently increased SOD-3 expression by 10, 19, and 23%. In summary, the nicotine might a promising therapy option for Parkinson’s disease.


Introduction
A debilitating neurodegenerative disease associated with aging, Parkinson's Disease (PD) is second after Alzheimer's Disease (AD) (Reich and Savitt, 2019).A study of PD prevalence was arise by 1 and 5%, in the age of 65 and 85-year-olds individuals, respectively.In addition, its prevelance is more common in men than women (Pringsheim et al., 2014;Simon et al., 2020).A British physician named James Parkinson first named Parkinson's disease "shaking palsy" in 1817.It was renamed Parkinson's disease by Jean-Martin Charcot in June 1988 (Przedborski, 2017;Jankovic and Tan, 2020).The disease progresses mainly due to the loss of dopaminergic neurons in the substantia nigra (SNPc) of the midbrain and α-synuclein (α-syn) aggregation in the brain tissues (Polymeropoulos et al., 1997;Spillantini et al., 1997;Du et al., 2020).Although PD is mainly characterized as a movement disorder, non-motor features are also present.Motor impairment includes resting tremor, rigidity, postural imbalance, slowness of movement, shuffling gate, and lack of facial expression (Schilder et al., 2017;Wei et al., 2017), while non-motor impairment includes constipation, dysphagia, hallucination, behavioral and cognitive problems in the disease late stages including sleep disturbances, anxiety and dementia (Titova and Chaudhuri, 2017;Muhammad et al., 2022).There are numerous theories explaining how Parkinson's disease manifests or the progression of its symptoms even though the exact cause is unknown (Chagas et al., 2014).
The etiology of PD advancements is due to a complex interaction of both sporadic (90% of cases) and genetic (5-10%) aspects (Blauwendraat et al., 2020).It is possible to develop sporadic Parkinson's disease due to exposure to toxicants, free radicals, head trauma and inflammation of the nervous system (Singleton and Hardy, 2019;Ullah et al., 2021).There are various genes associated with genetic predisposition including α-syn, parkin (PRKN), leucinerich repeat kinase 2 (LRRK2) and PTEN-induced kinase 1(PINK1) (Bandres-Ciga et al., 2020).The primary barrier in PD diagnosis and prognosis is that its signs and symptoms do not appear before 70-80% of brain substantia nigra pars compacta (SNPc) region DA neurons degeneration.United States food and drug administration (FDA) approved drugs mere delay and alleviate disease symptoms and do not stop, reduce or reverse disease progression (Sivanandy et al., 2021;Zhang et al., 2021).In the researcher's quest for pharmacological research, new approaches are developed to control the emergence, stop progression, and eliminate the disease.Therefore, scientists are optimistic about discovering a treatment for Parkinson's disease using neuroprotective drugs based on component-based molecules (van der Perren et al., 2020;Detroja and Samson, 2022).
Nicotine is a natural pyridine alkaloid found mainly in Nicotiana tabacum of the Solanaceae family Figure 1.Nicotinic acetylcholine receptor stimulation is the main mechanism of its pharmacological properties in the central and peripheral nervous systems (Ribeiro and Leite, 2003).Several studies have found that nicotine improves synaptic plasticity and dopaminergic neuronal survival.As well as reducing neuroinflammation and mitochondrial dysfunction, it also inhibits oxidative stress (Hussain et al., 2018;Nourse et al., 2021).It has been shown that smoking is inversely related to PD incidence in more than 40 epidemiological studies conducted in the past 50 years (Quik et al., 2012;Ma et al., 2020).There are several studies that suggest nicotine may reduce the prevalence of Parkinson's disease (Migliore and Coppedè, 2009;Nicholatos et al., 2018;Getachew et al., 2019).
Therefore, we evaluated nicotine's neuroprotective properties in transgenic C. elegans.In this study, nicotine reduced α-syn accumulations and restored 6-OHDA intoxicated DA neurons in the transgenic C. elegans PD models.Nicotine also restored the foodsensing behavior of 6-OHDA-intoxicated worms and improved lipid content and dopamine levels.Moreover, nicotine enhanced the antioxidant activities of superoxide dismutase-3 (SOD-3) and FOXO transcription factor homolog (Daf-16) nuclear translocations in the transgenic C. elegans model.As a result, we consider nicotine to be both an adjuvant and a prophylactic agent in treating Parkinson's disease using the transgenic C. elegans model system.

Food clearance assay
In this assay C. elegans strains OW13 and BZ555 were tested to assess nicotine's effect on their physiology and determine nicotine's appropriate dosage concentrations for experiments in the future (Ru-Huei et al., 2014;Chalorak et al., 2021).After overnight growth, E. coli was resuspended in S-medium at an optimum density (O.D.) of 6.6.Nicotine's desired concentration was achieved by diluting the drug in an E. coli suspension.A 150 μL volume of the final mixture was added per well in the 96-well plate, an approximately synchronized group of 20-30 L1 animals in 10 μL s-medium was added to an E. coli suspension containing a series of nicotine concentrations, which was incubated for six days in 96-well plates at 25°C.In order to prevent solution evaporation, aluminum foil was used to cover the plates.CA, United States) was used to measure the OD for six days at 600 nm once/day.Before measuring the OD, each plate was placed on a plate shaker for 10 s.A microscopical analysis determined the fraction of live worms in the wells based on size.Each experiment was repeated three times.

The self-induction of da neurodegeneration in transgenic
Caenorhabditis elegans by 6-OHDA BZ555 (GFP-tagged Dopaminergic Neurotoxic model) C. elegans neurons were subjected to neurotoxin (6-OHDA) to stimulate selfneurodegeneration.Briefly, with some minor alterations to the previously described protocol (Nass et al., 2002;Thirugnanam and Santhakumar, 2022).We added 100 mM 6-OHDA and 20 mM ascorbic acid to OP50/Smedium mix both with and without nicotine.BZ555 worms at L-3 (~200 in number) moved into the treated groups, incubated at 22°C for 1 h, and jiggled slightly every 10 min to induce neurodegeneration.After an incubation period of 1 h, BZ555 were washed three times with washing buffer (M9), moved to the OP50/NGM plates with or without nicotine different concentrations, and incubated again for 72 h at 20°C.OP50/NGM/nicotine plates containing 0.06 mg/mL FUDR (5-fluoro-29-deoxyuridine) (Sigma, and St. Louis, MI) because FUDR stops eggs from hatching in C. elegans and thus reduceses its population on plates.Each experiment was repeated three times.

Quantitative assay of dopaminergic neurons degeneration
The DA neurons degeneration assay was performed in BZ555 C. elegans treated with or without 6-OHDA/nicotine at various concentrations following a previously described protocol with a few modifications (Hibshman et al., 2021).Following 72 h of incubation at 20°C, strains of BZ555 were washed three times with M9 buffer to remove adhesive bacteria, mounted on glass slides, immobilized with 100 mM sodium azide, enclosed with a coverslip, and monitored under fluorescence microscope.The BX53 microscope (Olympus Corp., Tokyo, Japan) was used to observe immobilized fluorescent images of BZ555 C elegans.Quantifying fluorescence intensity was done using ImageJ software.Each experiment was repeated three times.

An assay for measuring dopamine levels
We used an Enzyme-linked immunosorbent assay (ELISA assay) kit to evaluate dopamine content in 6-OHDA and 6-OHDA+nicotine's different concentrations treated C. elegans groups (Bi et al., 2016).In each group, 6-OHDA treated and 6-OHDA/nicotine treated C. elegans BZ555 L3 larvae were washed three times with M9, then weighed.Then, according to the protocol, we added 100 μL, 1X RIPA+Protease inhibitor and used the Dounce homogenizer on ice for complete lysis of the worms.The worms were centrifuged at 4°C for 10 min at 14,000 × g.In accordance with the kit standard protocol, the supernatant was centrifuged and then analyzed by ELISA for DA content.Each experiment was repeated three times.

Quantitative assay of α -synuclein accumulation
It is thought that the protein (α -Syn) in OW13 is one of the primary causes of PD.As a result, we chose OW13 (GFP-tagged Muscular α-synuclein expression), a transgenic C. elegans PD model.OW13 worms integrated with human α-syn protein plus GFP fusion construct expressed α-Syn in the muscle's walls via green fluorescence signals.The method described previously has been modified slightly (Liu et al., 2015;Wang et al., 2020).A synchronized larva stage1 (L-1) strain of C. elegans was transferred onto NGM plates with or without nicotine at 100, 150, and 200 μM and seeded with OP50 and incubated at 20°C for 72 h.0.06 mg/mL FUDR was added to each NGM drug treated and untreated plates.Nicotine was not administered to control groups.Worms were washed thrice with M9 buffer, mounted on a glass slide, immobilized with sodium azide 100 mM, and enclosed with coverslips after 72 h.Following that, we analyzed α-syn green fluorescent protein (GFP) expression intensity in the treated and untreated worms under the BX53 fluorescent microscope (Olympus Corp., Tokyo, Japan).Fluorescence intensity was quantified using ImageJ software.Each experiment was repeated three times.

Lipid deposition quantification by Nile red staining assay
For quantitative lipid deposits analysis, in OW13 we used intracellular lipid droplets detective specific fluorescent staining dye Nile red.For stock solution preparation the previously described protocol has been modified slightly (Muhammad et al., 2022).We prepared a 0.5 mg/mL stock solution with 0.5 mg Nile red dye dissolved in 1 mL acetone.As a next step, the stock solution was mixed with E. coli in 1:250, then spread over the NGM plates containing different nicotine concentrations along with 0.06 mg/mL FUDR, and incubated overnight at 37°C.A further 72 h incubation was performed for L-1 C. elegans on NGM/Nile Red/OP50/FUDR plates with or without nicotine at 100,150, and 200 μM.Wild-type N2 C. elegans was used as a negative control.After 72 h, the worms were washed three times with M9, mounted on a glass slide, immobilized with sodium azide 100 mM, and enclosed with coverslips.The fluorescence intensity of lipid deposition was measured in C. elegans using a fluorescence microscope (Olympus, BX53, Japan) and the intensity was quantified using ImageJ software.Each experiment was repeated three times.

Food-sensing behavior assay
There is evidence that dopamine is responsible for C. elegans' basal slowing response (de Guzman et al., 2022).To evaluate DA neuron integrity, food-sensing behavior assays were performed.When C. elegans are surrounded by food sources, they move slower than when they are without them.We modified the previously described protocol slightly to prepare the NGM plates (Malaiwong et al., 2019).Two types of NGM plates were designed, one with food source (E.coli) and one without (E.coli).Following intoxication with 6-OHDA alone, and 6-OHDA+different nicotine concentrations for 1 h at 20°C, with 10 min intervals of mixing, the BZ555, L3 larva were washed three times with M9.A total of 30-50 C. elegans were placed in 10 μL M9 on NGM plates with and without bacterial lawns.In both bacterial and non-bacterial lawns, locomotory rate of the worms was assessed after 5-10 min of transfer by counting body bending at 20-s intervals.By calculating percentages of locomotion rates in bacteria lawns over non-bacterial lawns, the slowing rate was estimated.We calculated and compared the average slowing rates of 15-20 worms in each group for each analysis.Each experiment was repeated three times.

In-vivo oxidative free radicals analysis
A previously described protocol with minor modifications was used in order to evaluate the level of free oxidative radicals in-vivo, using 2,7-dichlorofluorescein diacetate (H2DCF-DA, Sigma) (Pandey et al., 2019).A synchronized population of L1 larvae of OW13 was cultured on nicotine-treated and untreated NGM plates for 72 h at 20°C.C elegans were washed three times with M9 after 72 h.50 C. elegans were shifted to 96-well plates in 150 μL of phosphate buffer solution (PBS,) and 150 μL of 100 mM H2DCF-DA was added per well before reading.Using a microplate reader at 485 nm excitation and 570 nm emission, the fluorescence reading was taken after 2 h.Each experiment was repeated three times.

Thermotolerance assay
Based on the protocol previously described, a thermotolerance assay was performed with slight modifications (Yang et al., 2018).On the nicotine-treated and untreated NGM plates, we cultured approximately 50 synchronized OW13, L1 larvae for 7 days at 20°C.Incubation at 37°C for 3 h was started on day 7 of the experiment.Touching each worm with platinum wire every hour was used to score the dead and alive worms.Each experiment was repeated three times.

Nicotine oxidative stress resistance assay
In the BZ555 strain, we measured nicotine oxidative stress resistance using Juglone (5-hydroxy-1,4-naphthoquinone), an intracellular reactive oxygen species (ROS) generator using the previously mentioned protocol with modifications (Reigada et al., 2020).Synchronized L1 of BZ555 was exposed to 100,150,200 μM of our drug nicotine for 72 h. at 20°C.Control group is BZ555

Daf-16 nuclear translocation assay
A previously described protocol, modified slightly, was used to determine the effect of nicotine on the nuclear localization of DAF-16 in TJ356 zls356 [daf-16p::da16a/b::GFP + rol-6( su1006)] (DAF-16:: GFP fusion protein) transgenic L1 worms (Lee et al., 2018).Synchronized L1 larvae were put on nicotine-treated/untreated NGM plates incubated for 72 h at 20°C.In the following steps, C. elegans were washed three times with M-9 buffer, mounted on a glass slide containing 100 mM sodium azide, and covered with a coverslip.DAF-16::GFP nuclear localization was observed under a fluorescence microscope (Olympus BX53) based on the discrete fluorescence aggregation phenotype.ImageJ software was used for analyzing the images (Carl Zeiss, Gottingen, Germany).Each experiment was repeated three times.

Sod-3 expression assay
CF1553 ([muIs84 ((pAD76) SOD-3p:: GFP + rol-6)];) a transgenic strain expressing SOD-3::GFP, was used for the reporter gene assay.To study nicotine's effect on CF1553 strains, the previously described protocol with modifications was used (Yang et al., 2018).The L-1 synchronized C. elegans were transferred to solid media plates with or without nicotine at 100, 150, and 200 μM and incubated for 72 h at 20°C.Nicotine is not administered to the control group.In the following steps, C. elegans were washed three times with M-9 buffer, mounted on a glass slide containing 100 mM sodium azide, and covered with a coverslip.The fluorescence intensity of the treated group's images was observed using a fluorescence microscope (Olympus, BX53, Japan).ImageJ was used to calculate the fluorescence intensity of C. elegans images.Each experiment was repeated three times.

Statistical analysis
We used SPSS/ANOVA (one-way), ImageJ, and GraphPad PRISM, Version 8.02 (1992-2019 GraphPad Software, Inc., La Jolla, CA, United States) for statistical analysis.DA neurons' GFP intensities were calculated as means ± SD, and their p-values were calculated.Likewise, for α-synuclein, the means ± SD of YFP intensity was also calculated.Each experiment was repeated at least three times and normalized to control groups.Significance differences (p-values) were observed via SPSS/(one-way) ANOVA, followed by Tukey's or Dunnett's (where comparison was only to the untreated group) post-hoc tests.In all the experiments, p ≤ 0.001 to p ≤ 0.005 is considered statistically significant and represented by (p ≤ 0.005)*.

Nicotine effect on transgenic Caenorhabditis elegans
We performed a food clearance test to assess nicotine toxic concentrations in C. elegans.We treated transgenic (OW13) and pharmacological (BZ555) worm strains with nicotine at 100, 150, 200, and 250 μM.A concentration of nicotine was tested to determine whether nicotine would be non-toxic to the physiology and hatching capabilities of C. elegans.In our experiment, worms treated with nicotine at 250 μM dilution showed toxic behavior, resulting in smaller bodies and fewer offspring.Even adults die after day intervals.Therefore, it lowers the clearance curve for food.The rest of the treated groups were alive and in good physical health.The addition of nicotine to cultures containing BZ555 and OW13 at 100, 150, and 200 μM concentrations did not affect food clearance compared to 250 μM Figure 2. In our subsequent experiments, we used the highest concentration of 200 μM.
3.2 Nicotine diminished 6-OHDA intoxicated DA neuron degeneration in a dose-dependent manner C. elegans possesses eight DA neurons, comprising one pair of anterior deirid (ADE) neurons, two pairs of cephalic (CEP) neurons in the head position, and one pair of posterior deirid (PDE) neurons in the posterior lateral region.C. elegans strain (BZ555) tagged with GFP at the dat-1 promoter is used as a PD model to study the active role of DA neurons.The promoter (Pdat-1: GFP) was used to observe significant changes in DA neurons' GFP intensity in the head region of the worm.The neurotoxin 6-OHDA was used to generate selective degenerations of DA neurons, which mimicked one of the symptoms of PD in BZ555 C. elegans.To analyze nicotine efficiency, we evaluated neuronal integrity by quantifying the loss of expression of a GFP reporter gene in DA neurons of 6-OHDA-treated BZ555 animals.6-OHDA treatment reduced GFP expression in PDE neurons and partially lost GFP expression in CEP and ADE neurons Figure 3A.Fluorescence intensity in 6-OHDA-exposed worms decreases by 93% (p ≤ 0.005) compared to non-exposed groups.When nematodes were subjected to nicotine, remarkable protection was observed in DA neurons with CEP, and ADE neurons showed enhanced GFP expression, providing evidence for nicotine's neuroprotective effects.Furthermore, nicotine at 100, 150, and 200 μM enhanced the fluorescence intensity of GFP in 6-OHDA-intoxicated BZ555 by 14, 33, and 40%, respectively Figure 3B.

Nicotine reduced α-synuclein aggregation in transgenic
Caenorhabditis elegans in a dose-dependent manner C. elegans are devoid of the SNCA orthologous gene.In contrast, nematode genetic flexibility enables the transgenic overexpression of human SNCA genes in muscle walls to investigate SNCA accumulation (Holmqvist et al., 2014).We selected C. elegans OW13 transgenics for examining protein α-Syn aggregation.As a

Nicotine recovers lipid deposition in transgenic strains Caenorhabditis elegans
Protein α-Syn has associations with lipid contents and fatty acid modifications, and together they start vesicle formation via a definite mechanism (Jadiya et al., 2011).In OW13 worms, the lipid contents are significantly reduced due to α-Syn existence (Chalorak et al., 2018).α-Syn toxicity disrupted lipid composition in the worms.Moreover, the toxic nature of accumulated α -Syn leads to lipid peroxidation (Saewanee et al., 2021).Lipid molecules are not only responsible for supporting a cell's structure and constructing membrane components, they are also involved in CNS communication.After nicotine treatment at different concentrations in OW13, we analyzed the lipid content in untreated and nicotine-treated OW13 strains through Nile red staining.In our experiments, nicotine increased the level of lipids by 6.0, 26, and 33% (p ≤ 0.005) dose-dependently Figure 5.A negative control, N2, was also used to compare the lipid content of transgenic OW13 with N2.The lipid content of N2 was 51% higher than that of untreated OW13.

Caenorhabditis elegans in a dose-dependent manner
Researchers have demonstrated that animals exposed to 6-OHD exhibit a phenotype of DA neurodegeneration, which subsequently affects dopamine synthesis (Eo et al., 2019).Migration of C. elegans is determined by their bodies bending frequently, which determines their speed (Ezcurra et al., 2011;Kress et al., 2014).On NGM media, C. elegans could sense food sources, usually bacterial lawns.DA neuronal circuits are responsible for C. elegans' basal slowing rate with food.Consequently, degenerative DA neurons lead to a lower dopamine level, which lowers the ability of nematodes to sense food.Compared with worms treated only with 6-OHDA, the locomotory rate would decrease if nicotine could decrease the 6-OHDAinduced DA neuron degeneration.Nicotine is examined for its ability to save nematodes' food-sensing behavior under 6-OHDA treatment.As a next step, we examined defects in food-sensing (counted as a "slowing rate") in 6-OHDA treated worms (BZ555).As compared to control without 6-OHDA treatment, the slowing rate of BZ555 nematodes was decreased 70% (p ≤ 0.005), demonstrating DA neuron dysfunction causes a deficit in foodsensing behavior.We observed that nicotine in BZ555 diminished DA neuron degeneration and significantly increased the slowing rate at (100 μM, by 18%), (150 μM, by 49%), and (200 μM, by 86%) (p ≤ 0.005), dose-dependently.These data collectively proved that nicotine could restore 6-OHDA-mediated DA neuron dysfunction Figure 6A.We used an ELISA assay to measure dopamine levels in 6-OHDA and 6-OHDA / nicotine-treated BZ555 strains.We observed that the 6-OHDA-intoxicated strain's dopamine level was reduced compared to the untreated strain.The dopamine levels in 6-OHDA-intoxicated strains reduced by 63% (p ≤ 0.005) compared to untreated control.We observed that nicotine significantly increased dopamine levels by 21, 45, and 58% in 6-OHDA intoxicated BZ555 worms dosedependently (p ≤ 0.005) Figure 6B.

Nicotine reduced in vivo ROS generation in a dose-dependent manner
Per the redox theory of aging, oxidative stress plays a pivotal role in aging (Luceri et al., 2018).A meta-analysis of 47 epidemiologic studies of PD validates the rise of PD incidence with age progression (Collier et al., 2017;Simon et al., 2020).There is also evidence that α-syn aggregation contributes to mitochondrial ROS production (Hsu et al., 2021).An aim of the study was to determine whether nicotine has an antioxidative effect.The ROS labeling dye H2DCF-DA was used to investigate this.Our experimental observation confirmed that nicotine at 100, 150 and 200 μM reduced ROS productions by 34, 63 and 69% dose-dependently as compared to control worms (p ≤ 0.005) Figure 7A.

Nicotine-enhanced thermotolerance in transgenic strains of Caenorhabditis elegans in a dose-dependent manner
A previous study has shown that nematode thermal stress is relevant to increasing oxidative stress (Koch et al., 2019).In order to investigate the effect of nicotine on thermotolerance, all treated and untreated worms were moved to 37°C for three hours, and the number of live and dead OW13 worms was counted.The nicotine-treated worms survived longer at 100 μM(13%), 150 μM(22%), and 200 μM(30%) than the untreated worms Figure 7B.

Nicotine enhanced the antioxidant capcity in a dose-dependent manner
The effectiveness of a drug under oxidative stress is often related to its ability to extend its life span and to act as an antioxidant (Pandey et al., 2019).It has been shown that worms have an increased 10.3389/fnagi.2024.1358141 Frontiers in Aging 08 frontiersin.organtioxidant capacity when their antioxidant system is activated (Shi et al., 2023).We tested the antioxidant capability of nicotine by exposing different treated and untreated BZ555 C. elegans to juglone, an oxidative stressor.Juglone/nicotine-treated worms at 100 μM,150 μM, and 200 μM survived longer by 11, 26 and 30% than untreated worms (Juglone only) Figure 7C.

Nicotine-enhanced Daf-16 nuclear translocation in transgenic strains
Caenorhabditis elegans in a dose-dependent manner Under stress conditions, DAF-16, a C. elegans homolog of the forkhead transcription factor (FOXO), is activated and different protective genes are expressed (Link et al., 2016;Zecic and Braeckman, 2020).DAF-16 normally resides in the cytoplasm.In order to activate downstream target genes, activated DAF-16 is transferred from the cytoplasm to the nucleus (Mukhopadhyay et al., 2006).The nuclear localization of DAF-16 can be induced by oxidative stress (Senchuk et al., 2018).TJ356 transgenic worms were used to investigate the effect of nicotine on DAF-16 nuclear translocation.Nicotine-treated worms at 100 μM, 150 μM, and 200 μM enhanced DAF-16 translocation from cytoplasm to nucleus by 14, 31, and 49% in a dosedependent manner (p ≤ 0.005) Figure 8.
3.11 Nicotine-enhanced Sod-3 expression in transgenic strains Caenorhabditis elegans in a dose-dependent manner SOD activity plays a key role in scavenging ROS.The high antioxidative properties of a drug contribute to its ROS scavenging capacity (Van Raamsdonk and Hekimi, 2012;Niu et al., 2021).In CF1553 worms, sod-3::gfp encodes superoxide dismutases.The effects of nicotine on the CF1553 worms were determined by treating them with nicotine and determining its antioxidative properties.A dosedependent increase in SOD-3 expression was found by nicotine in CF1553 worms as compared to control (CF1553 without any drugs) at (100 μM,10%), (150 μM, 19%), and (200 μM, 23%), (p ≤ 0.005) Figure 9.In this study, nicotine was evaluated for its therapeutic efficacy in C. elegans models of Parkinson's.Our research techniques use the benefits of the C. elegans model for drug testing, forecasting a drugspecific mode of action comprising easy and exact visualizations of live DA neuron degeneration and α-syn aggregative toxicity.Further, small-scale NGM media culturing of C. elegans models significantly reduced the number of drugs needed for examinations.Assays based on C. elegans could be influential for rapid assessment, low cost, and screening many novel neuroprotective drugs (Naseer et al., 2021).We assessed nicotine's optical and toxic concentrations in our C. elegans PD models using a food clearance test.Due to the advantages of growing C. elegans in Escherichia coli liquid cultures and the short life cycle, nicotine was tested at the rate at which the food source OP50 (E. coli bacterial strains) was consumed.In an optical observation, worms treated at 250 μM dilution showed toxic behavior, leading to a smaller body size and fewer offspring.This resulted in the death of adults at day intervals and a decrease in food clearance.A concentration of 100, 150, and 200 μM of nicotine added to cultures containing BZ555 and OW13 did not affect food clearance as compared to a concentration of 250 μM (Figure 2).
The 6-OHDA neurotoxin was chosen for this study based on its ability to selectively destroy DA neurons.The transport The N2 group was used as a negative control to verify whether α-Syn existence affects lipid deposits.The double asterisk (**) shows the significant augmentation of lipid deposits after nicotine treatment (6, 26, 33%) compared to the untreated groups (p ≤ 0.005), and hash (#) describes the significant difference between N2 and untreated group (OW13 without nicotine treatment) (p ≤ 0.005). 10.3389/fnagi.2024.1358141 Frontiers in Aging 10 frontiersin.orgmechanisms dopamine allow 6-OHDA to pass in neurons after treatment (Estrada-Valencia et al., 2022).DA neurons degenerate, causing Parkinson's disease.BZ555 shows PD-like symptoms due to 6-OHDA-induced desensitization of DA neurons (Nass et al., 2002;Kumari et al., 2021).After creating the neurodegenerative model, we treated it with nicotine at 100, 150, and 200 μM concentrations.Compared to control groups, nicotine-recovered degenerated DA neurons dose-dependently (Figure 3).Furthermore, the ELISA assay also revealed that nicotine/6-OHDA treated worms exhibited an increase in DA levels compared to controls (Figure 6B).The DA neurons control C. elegans' food-sensing behavior (Liao et al., 2020).The uptake of 6-OHDA causes desensitization of DA neurons, which affects functions such as movement and food sensing, which is restored after nicotine treatment (Figure 6A).Nicotine's antioxidant activity may be responsible for its neuroprotective effects in 6-OHDA neuronal loss, food-sensing behavior defects, and dopamine level declines.The accumulation of protein α-Syn in neuronal cells is another characteristic of Parkinson's disease (Bérard et al., 2022).Accumulated α-Syn in the muscle walls specifying the in vivo toxicity leading to PD-like progressive motility in C. elegans (Maulik et al., 2019).In this study, we examined the therapeutic effect of nicotine on α-Synuclein disaggregation in C. elegans strain OW13.As a result of the present study, we observed reduced aggregation of α-synuclein and hypothesized that nicotine might promote neuroprotection (Figure 4).There are large quantities of lipid molecules in the CNS, suggesting that their functions are not limited to cell drive or structural component production (Dyall et al., 2022).It is well known that some lipids in the CNS play a vital role in neurotransmission (Xu et al., 2022).Neurodegenerative diseases are caused by defective cell signaling pathways (Hannan et al., 2020).The lipid content of cells modulates all signaling activities (Chen et al., 2020).The altered fatty acid and lipid content levels in Parkinson's disease concern toxic α-synuclein accumulation through the binding of α-synuclein with lipids (Chalorak et al., 2018;Amri et al., 2022).OW13 worms stained with Nile Red showed significantly higher lipid depositions after nicotine was added (Figure 5).
Our study also found that nicotine reduced α-synuclein accumulation, reduced lipid peroxidation, and restored lipid levels.Thus, such protective effects could maintain efficient cellular  signaling by regulating arrangement disturbances.Both sporadic and familial forms of Parkinson's disease are thought to be caused by oxidative stress (Chang and Chen, 2020).A moderate level of oxidative stress can therefore lead to cellular reactions and neuronal cell death (Tchekalarova and Tzoneva, 2023).In epidemiologic studies of PD, age progression and oxidative stress are associated with higher PD incidence (Collier et al., 2017).Nicotine reduced in vivo ROS levels dose-dependently and protected neurons against oxidative stress (Figure 7A).C. elegans' oxidative stress increases with thermal stress (Koch et al., 2019).The survival rate of nicotine-exposed worms was higher than untreated worms in a dose-dependent manner (Figure 7B).The naphthoquinone juglone is one of the most abundant naphthoquinones, belongs to the quinone class, and produces hydrogen peroxide and intracellular superoxide.As a result, biological macromolecules are damaged, and the aging process and diseases are accelerated (Benites et al., 2018;Ramos Boldori et al., 2023).Our worms were treated with Juglone, an intracellular ROS generator, to validate nicotine's effect against oxidative stress.Nicotine treated worms have a higher survival rate under stressed conditions than untreated worms (Figure 7C).Stress tolerance and lifespan extension are well-known functions of DAF-16, a downstream transcription factor of the IIS Frontiers in Aging 13 frontiersin.org(Zhu al., 2023).Inhibition of insulin/IGF receptor DAF-2 reduces the of phosphoinositide 3-kinase (PI3K)/ Akt kinase cascade, which, in turn, dephosphorylates and activates DAF-16/FOXO transcription factor through enhanced translocation from the cytoplasm to the nucleus, regulating genes involved in stress resistance and longevity (Sun et al., 2021).Nicotine promoted the translocation of DAF-16 to the nucleus, activating detoxification and defense proteins in the nematode.A higher fluorescence was observed in nicotine-treated TJ356 than in untreated cells, suggesting that this factor is translocated from the cytoplasm to the nucleus (Figure 8).Superoxide dismutase (SOD-3) is an antioxidant enzyme that reduces ROS to prolong life (Balestrino and Schapira, 2019).PD is a neurodegenerative disorder associated with aging.An important risk factor for PD is mitochondrial ROS-induced oxidative stress (Kung et al., 2021).The C. elegans genome contains five superoxide dismutase (SOD) genes.The antioxidant enzyme SOD-3 reduced oxidative stress by reducing ROS and contributed to a longer lifespan (Li et al., 2021).Therefore, we assessed the active role of nicotine in promoting SOD-3 activity in CF1553 C. elegans.Nicotine treatment at 100, 150, and 200 μM concentrations exhibited a significant increase in SOD-3 expression compared to untreated groups (Figure 9).In our study, nicotine demonstrated antioxidative properties and reduced ROS levels in worms.Based on the tests above, nicotine is probably associated with neuroprotective effects due to its anti-radical properties.Future 10.3389/fnagi.2024.1358141 Frontiers in Aging 14 frontiersin.orgwill needed to determine precise mechanism behind these results.

Conclusion
Nicotine's neuroprotective effects were assessed in pharmacological transgenic PD models.According to our assessment, nicotine augmented neuroprotection in 6-OHDA-treated nematodes and reduced α-synuclein accumulation-furthermore, our drug increased lipid deposition, food sensing behavior, SOD-3, and Daf-16 fluorescence.Based on various assays, nicotine exhibited excellent antiparkinsonian properties.Compounds like this are readily available, inexpensive, and highly effective ways to regulate DA neurons.It is the first report examining nicotine's anti-parkinsonism properties in C. elegans PD models.Further research will be required to determine the precise mechanism behind these results.

FIGURE 1
FIGURE 1 strain's advantages, OW13 displays higher expression levels and progressive motility defects like PD.Consequently, it demonstrated in vivo aggregative toxicity of protein α-Syn(Muhammad et al., 2022).To observe the active role of nicotine in decreasing α-Syn accumulated toxicity, we treated the worms with or without nicotine.Our assessment verified that nicotine at 100, 150, and 200 μM significantly reduced α-Syn aggregates fluorescence intensity by about 53, 56, and 78% (p ≤ 0.005) compared to untreated groups, dose-dependently.ImageJ software quantifies α-Syn numbers and aggregate volumes of fluorescence intensity Figure4.
FIGURE 3 Represents nicotine attenuates the degeneration of DA neurons by 6-OHDA intoxication in BZ555 transgenic C. elegans.(A) Images representing fluorescence GFP: Pdat-1 expression patterns in DA neurons of the worms BZ555.(B) Graphical demonstration of GFP expression pattern of fluorescence in DA neurons of the worms BZ555 treated with or without 6-OHDA/nicotine was computed using ImageJ software.Scale bar 50 μm.The results indicate nicotine at 100,150, and 200 μM recovers the DA neuron degenerations up to 14, 33, and 40% dose-dependently.Data were computed by mean ± SD (n = 30).A hash (#) indicates significant differences between 6-OHDA-treated and untreated animals (< 0.005).
FIGURE 4 A represents that Nicotine treatment decreases α-Syn accumulations in OW13 worms.(A) GFP fluorescence expressions in OW13 muscle walls.(B) Graph representing the data of fluorescence intensities in worms calculated by mean ± SD (n = 30).Scale bar 50 μm.ImageJ software was used to quantify the fluorescence images.Data shows that nicotine at 100, 150, and 200 μM attenuated the α-Syn accumulations up to (53%), (56%), and (78%) (p ≤ 0.005) compared to untreated groups, dosedependently.(*) An asterisk depicts the significant difference between nicotine-treated and untreated groups (p ≤ 0.005). 4 FIGURE 5 Nicotine increases lipid content in OW13 nematodes.(A) Representative Nile red staining images of nematode strains OW13 & N2.(B) Graphical representation of fluorescence intensities after Nile red staining as calculated by ImageJ.The data shows the mean ± SD (n = 30).Scale bar 50 μm.The N2 group was used as a negative control to verify whether α-Syn existence affects lipid deposits.The double asterisk (**) shows the significant augmentation of lipid deposits after nicotine treatment (6, 26, 33%) compared to the untreated groups (p ≤ 0.005), and hash (#) describes the significant difference between N2 and untreated group (OW13 without nicotine treatment) (p ≤ 0.005).
FIGURE 8Transgenic strain TJ356 exhibits nicotine's anti-oxidative capacity through the Daf-16 pathway in a dose-dependent manner.The intensity of GFP in transgenic strain TJ356 is represented by (A).A dose-dependent pattern of Daf-16 nuclear translocation in TJ356 worms treated with nicotine at 100 μM (14%), 150 μM (31%), and 200 μM (49%) is apparent compared to untreated groups.(B) Shows a graphical representation of TJ356 fluorescence intensity calculated using image J.The data represent the mean ± S.D. (n = 30).Scalebar 50 μm.* An asterisk indicates significant differences (p ≤ 0.005) between nicotine-treated and control samples.

TABLE 1
Study strains and maintenance conditions for C. elegans.
After 72 h, the C. elegans were washed three times with M9.50 μL M9 containing 40-50 C. elegans were poured into 96 wells, and various drug concentrations and 250 μM Juglone were added.Incubated for 24 h.A touch-provoked movement was used to assess the survival percentage of worms after 24 h.Responses to the mechanical stimulus were counted as alive, and vice versa.Each experiment was repeated three times.