Protective efficacy of Nerium oleander extract on spermatogenesis in streptozotocin-induced diabetic rats.

Men with diabetes frequently experience spermatogenic dysfunction, which is the most significant sign that diabetes has harmed their ability to reproduce. The effect of various doses of the hydro-alcoholic extract of Nerium oleander leaves on the pituitary-gonadal axis, sperm motility and number, antioxidant system, changes in testicular tissue structure, and spermatogenesis in healthy and diabetic rats has been examined in the current study. Eighty male rats that had been streptozotocin-induced diabetic and healthy were divided into eight groups: (1) control, (2) Nerium (50 mg/kg), (3) Nerium (100 mg/kg), (4) Nerium (200 mg/kg), (5) DM (6) DM+Nerium (50 mg/kg), (7) DM+Nerium (100 mg/kg) and (8) DM+Nerium (200 mg/kg) and were administered orally for 48 days consecutive. Following the studies, analysis of the testicular tissues' antioxidant capacity as well as sperm parameters, Johnsen's scoring and morphometric evaluation, histology, biochemical and stereology studies were performed.The outcomes showed that Nerium 50 and 100 mg/kg considerably enhanced the testicular morphology, sperm parameters, and reproductive organs to varying degrees in diabetic rats. After Nerium 50 mg/kg administration, glutathione peroxidase (GPX) and catalase (CAT) levels in the testicular tissue were increased whereas malondialdehyde (MDA) levels were markedly decreased. Nerium may help protect against diabetic-induced spermatogenic dysfunction in male rats by enhancing the activities of antioxidant enzymes in lower dosages.

Toxic Garden and Landscaping Plants.

Many popular ornamental shrubs are not only beautiful but also toxic when ingested in sufficient quantities. Common toxic landscaping shrubs in North America include yew (Taxus spp), oleander (Nerium oleander), and rhododendrons and azaleas (Rhododendron spp). Horses are often exposed when plant trimmings are placed within reach or discarded in pastures. Occasionally clippings or fallen leaves contaminate hay. Some plants are unpalatable unless dried and mixed with hay or lawn clippings but others are ingested more readily. In many cases, disease can be severe and treatment unrewarding; therefore, client education is critical to preventing serious and potentially fatal poisonings.

Exploring of the ameliorative effects of Nerium (Nerium oleander L.) ethanolic flower extract in streptozotocin induced diabetic rats via biochemical, histological and molecular aspects.

BACKGROUND: Nerium oleander L. is ethnopharmacologically used for diabetes. Our aim was to investigate the ameliorative effects of ethanolic Nerium flower extract (NFE) in STZ-induced diabetic rats. METHODS: Seven random groups including control group, NFE group (50 mg/kg), diabetic group, glibenclamide group and NFE treated groups (25 mg/kg, 75 mg/kg, and 225 mg/kg) were composed of forty-nine rats. Blood glucose level, glycated hemoglobin (HbA1c), insulin level, liver damage parameters and lipid profile parameters were investigated. Antioxidant defense system enzyme activities and reduced glutathione (GSH) and malondialdehyde (MDA) contents and immunotoxic and neurotoxic parameters were determined in liver tissue. Additionally, the ameliorative effects of NFE were histopathologically examined in liver. mRNA levels of SLC2A2 gene encoding glucose transporter 2 protein were measured by quantitative real time PCR. RESULTS: NFE caused decrease in glucose level and HbA1c and increase in insulin and C-peptide levels. Additionally, NFE improved liver damage biomarkers and lipid profile parameters in serum. Moreover, lipid peroxidation was prevented and antioxidant enzyme activities in liver were regulated by NFE treatment. Furthermore, anti-immunotoxic and anti-neurotoxic effects of NFE were determined in liver tissue of diabetic rats. Histopathogically, significant liver damages were observed in the diabetic rats. Histopathological changes were decreased partially in the 225 mg/kg NFE treated group. SLC2A2 gene expression in liver of diabetic rats significantly reduced compared to healthy rats and NFE treatment (25 mg/kg) caused increase in gene expression. CONCLUSION: Flower extract of Nerium plant may have an antidiabetic potential due to its high phytochemical content.

Differential Activities of the Botanical Extract PBI-05204 and Oleandrin on Innate Immune Functions under Viral Challenge Versus Inflammatory Culture Conditions.

The Nerium oleander extract PBI 05204 (PBI) and its cardiac glycoside constituent oleandrin have direct anti-viral properties. Their effect on the immune system, however, is largely unknown. We used an in vitro model of human peripheral blood mononuclear cells to document effects under three different culture conditions: normal, challenged with the viral mimetic polyinosinic:polycytidylic acid Poly I:C, and inflamed by lipopolysaccharide (LPS). Cells were evaluated for immune activation marks CD69, CD25, and CD107a, and culture supernatants were tested for cytokines. Both PBI and oleandrin directly activated Natural Killer (NK) cells and monocytes and triggered increased production of cytokines. Under viral mimetic challenge, PBI and oleandrin enhanced the Poly I:C-mediated immune activation of monocytes and NK cells and enhanced production of IFN-γ. Under inflammatory conditions, many cytokines were controlled at similar levels as in cultures treated with PBI and oleandrin without inflammation. PBI triggered higher levels of some cytokines than oleandrin. Both products increased T cell cytotoxic attack on malignant target cells, strongest by PBI. The results show that PBI and oleandrin directly activate innate immune cells, enhance anti-viral immune responses through NK cell activation and IFN-γ levels, and modulate immune responses under inflamed conditions. The potential clinical impact of these activities is discussed.

Accidental fatal poisoning in a child due to ingestion of Nerium oleander leaf.

Nerium oleander is an ornamental plant that belongs to the family Apocynaceae. It contains a cardiac glycoside named oleandrin, which is present in all parts of the oleander plant. Suicidal and medication-related deaths due to Nerium oleander poisoning are not uncommon. However, accidental deaths due to oleander leaf ingestion are most commonly encountered. We are reporting a case of an accidental ingestion of Nerium oleander leaf in a child by mistaking it for a guava leaf. The child presented to the casualty with vomiting, poor sensorium, hypotension, and shock. The child developed hyperkalemia, acute kidney injury, myocardial dysfunction, and bleeding manifestations. The urine output was decreased (< 0.5 ml/kg/h). Later, the child died after 36 h. On autopsy examination, periorbital puffiness and bluish discoloration of the nail beds were present. Petechial hemorrhages were present in the heart, kidney, and mesentery. The stomach mucosa was hemorrhagic. Histopathologically, the lung showed interstitial congestion, the liver showed centrilobular necrosis, and the kidney showed acute tubular necrosis. Toxicology analysis was positive for oleander poisoning. This case highlights the toxic nature of Nerium oleander ingestion and the importance of avoiding such plants around residential areas.

The why and how of sunken stomata: does the behaviour of encrypted stomata and the leaf cuticle matter?

BACKGROUND: Stomatal pores in many species are separated from the atmosphere by different anatomical obstacles produced by leaf epidermal cells, especially by sunken stomatal crypts, stomatal antechambers and/or hairs (trichomes). The evolutionary driving forces leading to sunken or 'hidden' stomata whose antechambers are filled with hairs or waxy plugs are not fully understood. The available hypothetical explanations are based mainly on mathematical modelling of water and CO2 diffusion through superficial vs. sunken stomata, and studies of comparative autecology. A better understanding of this phenomenon may result from examining the interactions between the leaf cuticle and stomata and from functional comparisons of sunken vs. superficially positioned stomata, especially when transpiration is low, for example at night or during severe drought. SCOPE: I review recent ideas as to why stomata are hidden and test experimentally whether hidden stomata may behave differently from those not covered by epidermal structures and so are coupled more closely to the atmosphere. I also quantify the contribution of stomatal vs. cuticular transpiration at night using four species with sunken stomata and three species with superficial stomata. CONCLUSIONS: Partitioning of leaf conductance in darkness (gtw) into stomatal and cuticular contributions revealed that stomatal conductance dominated gtw across all seven investigated species with antechambers with different degrees of prominence. Hidden stomata contributed, on average, less to gtw (approx. 70 %) than superficial stomata (approx. 80 %) and reduced their contribution dramatically with increasing gtw. In contrast, species with superficial stomata kept their proportion in gtw invariant across a broad range of gtw. Mechanisms behind the specific behaviour of hidden stomata and the multipurpose origin of sunken stomata are discussed.

Small-amplitude head oscillations result from a multimodal head stabilization reflex in hawkmoths.

In flying insects, head stabilization is an essential reflex that helps to reduce motion blur during fast aerial manoeuvres. This reflex is multimodal and requires the integration of visual and antennal mechanosensory feedback in hawkmoths, each operating as a negative-feedback-control loop. As in any negative-feedback system, the head stabilization system possesses inherent oscillatory dynamics that depend on the rate at which the sensorimotor components of the reflex operate. Consistent with this expectation, we observed small-amplitude oscillations in the head motion (or head wobble) of the oleander hawkmoth, Daphnis nerii, which are accentuated when sensory feedback is aberrant. Here, we show that these oscillations emerge from the inherent dynamics of the multimodal reflex underlying gaze stabilization, and that the amplitude of head wobble is a function of both the visual feedback and antennal mechanosensory feedback from the Johnston's organs. Our data support the hypothesis that head wobble results from a multimodal, dynamically stabilized reflex loop that mediates head positioning.

[Multidisciplinary management of voluntary pink oleander poisoning: How to estimate the quantities ingested?] / Prise en charge multidisciplinaire d'une intoxication volontaire au laurier rose : comment estimer les quantités ingérées ?

This is a case of voluntary ingestion of Nerium oleander leaves in an adolescent requiring the use of atropine and emergency chartering of antidigoxin antibodies (Digifab®) due to the difficulty of assessing oleandrin level and associated toxicity. Upon hospital admission, a digoxinemia was performed (0.44µg/mL) and the presence of oleandrine was detected. Oleandrin levels at toxic levels may be suspected by a measure of blood digoxin and explain the patient's clinical signs, which could adapt the therapeutic management.

New Cardenolides from Biotransformation of Gitoxigenin by the Endophytic Fungus Alternaria eureka 1E1BL1: Characterization and Cytotoxic Activities.

Microbial biotransformation is an important tool in drug discovery and for metabolism studies. To expand our bioactive natural product library via modification and to identify possible mammalian metabolites, a cytotoxic cardenolide (gitoxigenin) was biotransformed using the endophytic fungus Alternaria eureka 1E1BL1. Initially, oleandrin was isolated from the dried leaves of Nerium oleander L. and subjected to an acid-catalysed hydrolysis to obtain the substrate gitoxigenin (yield; ~25%). After 21 days of incubation, five new cardenolides 1, 3, 4, 6, and 8 and three previously- identified compounds 2, 5 and 7 were isolated using chromatographic methods. Structural elucidations were accomplished through 1D/2D NMR, HR-ESI-MS and FT-IR analysis. A. eureka catalyzed oxygenation, oxidation, epimerization and dimethyl acetal formation reactions on the substrate. Cytotoxicity of the metabolites were evaluated using MTT cell viability method, whereas doxorubicin and oleandrin were used as positive controls. Biotransformation products displayed less cytotoxicity than the substrate. The new metabolite 8 exhibited the highest activity with IC50 values of 8.25, 1.95 and 3.4 µM against A549, PANC-1 and MIA PaCa-2 cells, respectively, without causing toxicity on healthy cell lines (MRC-5 and HEK-293) up to concentration of 10 µM. Our results suggest that A. eureka is an effective biocatalyst for modifying cardenolide-type secondary metabolites.

Fatal poisoning by ingestion of a self-prepared oleander leaf infusion.

An unusual case of poisoning by the ingestion of oleander leaves is reported. A 71 year old male laboratory technician committed suicide at home in this unusual manner. At the death scene a steel pan and other paraphernalia, used for the extraction of oleandrin and other cardiac glycosides from the leaves of the Nerium oleander plant were found.Toxicological investigations for oleandrin, oleandrigenin, neritaloside, and odoroside were performed by LC-MS/MS on all biological samples (peripheral blood, vitreous humor, urine, liver, gastric contents) and on the yellow infusion found at the death scene.In all samples, toxic levels of oleandrin were detected (blood 37.5 ng/mL, vitreous humor 12.6 ng/mL, urine 83.8 ng/mL, liver 205 ng/mg, gastric content 31.2 µg/mL, infusion 38.5 µg/mL). Qualitative results for oleandrigenin, neritaloside, and odoroside were obtained. Oleandrigenin was present in all tissue samples whereas neritaloside and odoroside were absent in the blood and vitreous humor but present in urine, liver, gastric content, and in the leaf brew.The purpose of this study was the identification of oleandrin and its congener oleandrigenin, detected in the vitreous humor. The blood/vitreous humor ratio was also calculated in order to assess of the likely time interval from ingestion to death. According to the toxicological results death was attributed to fatal arrhythmia due to oleander intoxication. The manner of death was classified as suicide through the ingestion of the infusion.

Deliberate Self-poisoning due to Plant Toxins: Verdant Footprints of the Past into the Present.

BACKGROUND: Plant poisoning is one of the common methods of deliberate self-poisoning (DSP). Exposure to plants and its consequence account for a considerable number of deaths in rural India. MATERIALS AND METHODS: This retrospective observational study was conducted in the emergency department of a large tertiary care hospital in South India over a period of 2 years and recruited patients who presented with DSP from plant poisoning. RESULTS: During the study period, 150 cases of plant poisoning were included. The mean (standard deviation) age of presentation was 31.4 (12.2) years. The most common type of plant poison consumed was oleander (63%) followed by oduvanthalai (50%), Strychnos nux-vomica (3%), datura (3%), and others, which comprised about 5.3% included henna (1.3%), cactus (1.3%), and a case each of castor, Gloriosa superba, Adenanthera pavonina, and Abrus precatorius. Patients in age-group 16-30 years had the highest rate of ingestion. The seasonal pattern was found to peak in the month of April. Gastric lavage was done in 102/150:68%. Consumption of decoction [odds ratio (OR): 5, 95% confidence interval (CI): 2.27-14.00, p value: <0.001] and metabolic acidosis (pH <7.35) (OR: 11.48, 95% CI: 4.17-31.57, p value: <0.001) were more common in oduvanthalai poisoning as compared to oleander. The mortality among plant poisoning was 9.3% (14/150). CONCLUSION: Our study sheds light on the spectrum of local plants consumed for DSP. Oleander and oduvanthalai were most commonly used for DSP. Consuming a decoction of leaves leading to severe metabolic acidosis at presentation is seen associated with oduvanthalai poisoning. HOW TO CITE THIS ARTICLE: Abhilash KPP, Murugan S, Rabbi AS, Pradeeptha S, Pradeep R, Gunasekaran K. Deliberate Self-poisoning due to Plant Toxins: Verdant Footprints of the Past into the Present. Indian J Crit Care Med 2021;25(4):392-397.

Response of young Nerium oleander plants to long-term non-ionizing radiation.

MAIN CONCLUSION: Although exposure to low frequency electromagnetic radiation is harmful to plants, LF-EM irradiated Nerium oleander seedlings exhibited enhanced development and growth, probably taking advantage of defined structural leaf deformations. Currently, evidence supports the undesirable, often destructive impact of low frequency electromagnetic (LF-EM) radiation on plants. The response of plants to LF-EM radiation often entails induction in the biosynthesis of secondary metabolites, a subject matter that is well documented. Nerium oleander is a Mediterranean plant species, which evolved remarkable resistance to various environmental stress conditions. In the current investigation, cultivated N. oleander plants, following their long-term exposure to LF-EM radiation, exhibited major structural modifications as the flattening of crypts, the elimination of trichomes and the reduction of the layers of the epidermal cells. These changes co-existed with an oxidative stress response manifested by a significant increase in reactive oxygen species at both the roots and the above ground parts, a decline in the absorbance of light by photosynthetic pigments and the substantially increased biosynthesis of L-Dopa decarboxylase (DDC), an enzyme catalyzing the production of secondary metabolites that alleviate stress. The exposed plants exhibited greater primary plant productivity, despite a manifested photosynthetic pigment limitation and the severe oxidative stress. This unique response of N. oleander to severe abiotic stress conditions may be owed to the advantage offered by a structural change consistent to an easier diffusion of CO2 within the leaves. A major plant response to an emerging "pollutant" was documented.

Brugada phenocopy induced by consumption of yellow oleander seeds - A case report.

Brugada phenocopy is a brugada-like pattern in ECG seen in some diseases without an inherited channelopathy. The causes of brugada phenocopy are usually reversible. Once the reversible condition resolves, the ECG pattern disappears. There are many conditions that cause brugada phenocopy like myocardial infarction, hyperkalemia etc. Here we report a case of brugada phenocopy induced by consumption of yellow oleander seeds (T. Peruviana).

Fatal Yellow Oleander Poisoning Masquerading as Benign Candlenut Ingestion Taken for Weight Loss.

BACKGROUND: Candlenuts (Aleurites moluccana) and yellow oleander seeds (Thevetia peruviana) bear a physical resemblance to one another. Candlenuts are benign and marketed as weight loss supplements. Yellow oleander seeds, however, contain toxic cardioactive steroids; as few as 2 seeds may cause fatal poisoning. Because of their physical similarities, the potential for a lethal substitution exists. CASE REPORT: A 63-year-old woman presented to the emergency department with vomiting after ingesting 5 of what she believed to be candlenuts that were ordered online under the colloquial name "Nuez de la India" for the purpose of weight loss. She was bradycardic (nadir pulse of 30 beats/min) and hyperkalemic (serum potassium 7.3 mEq/L). Within hours of presentation she suffered a ventricular fibrillation arrest, followed by a terminal asystolic arrest. Postmortem analyses of liver tissue and the seeds were consistent with fatal T. peruviana poisoning. WHY SHOULD AN EMERGENCY PHYSICIAN BE AWARE OF THIS?: T. peruviana seeds contain toxic cardioactive steroids; their physical resemblance to candlenuts poses a risk of potentially fatal substitution. Therapy with high-dose digoxin specific immune fragments (20-30 vials) may be helpful.

Phytostabilization potential of Erica australis L. and Nerium oleander L.: a comparative study in the Riotinto mining area (SW Spain).

Phytostabilization is a green, cost-effective technique for mine rehabilitation and ecological restoration. In this study, the phytostabilization capacity of Erica australis L. and Nerium oleander L. was assessed in the climatic and geochemical context of the Riotinto mining district, southwestern Spain, where both plant species colonize harsh substrates of mine wastes and contaminated river banks. In addition to tolerating extreme acidic conditions (up to pH 3.36 for E. australis), both species were found to grow on substrates very poor in bioavailable nutrients (e.g., N and P) and highly enriched with potentially phytotoxic elements (e.g., Cu, Cd, Pb, S). The selective root absorption of essential elements and the sequestration of potentially toxic elements in the root cortex are the main adaptations that allow the studied species to cope in very limiting edaphic environments. Being capable of a tight elemental homeostatic control and tolerating extreme acidic conditions, E. australis is the best candidate for use in phytostabilization programs, ideally to promote early stages of colonization, improve physical and chemical conditions of substrates and favor the establishing of less tolerant species, such as N. oleander.

Fluorescent Carbon Dots from Nerium oleander: Effects of Physical Conditions and the Extract Types.

In this original research, the synthesis of carbon nanodots (CDs) from two different solvent extracts of Nerium oleander by the thermal method was investigated under various physical conditions such as pH, reaction temperature, ionic strength, and surface passivation agent (polyethylene glycol, PEG) presence in the reaction media. The effects of extract types and physical conditions on CDs formation were characterized by UV-Visible spectrophotometry, fluorescence spectrophotometry, Fourier transform infrared spectroscopy and dynamic light scattering analysis. Fluorescent CDs were obtained from PEG included reaction media. Additionally, the enhanced fluorescence intensity correlated with ascending reaction temperature was reported. The hydrodynamic particle size of CDs in aqueous solution was determined between ~1 and 235 nm with negative surface potential in the range of -6 mV and -28 mV. Moreover, CDs synthesized from aqueous extract mostly resulted in smaller size than that of ethanol extract based ones. The impact of surface passivation with PEG on the fluorescence feature of CDs was verified. For the relevant extracts of Oleander, CDs synthesized from PEG included formulations at pH 5 and NaCl free reaction media found as better alternatives than CDs synthesized under other conditions taking account their effect on fluorescence feature, hydrodynamic size and etc. Graphical Abstract.

Oleander and Datura Poisoning: An Update.

India has a very high incidence of poisoning. While most cases are due to chemicals or drugs or envenomation by venomous creatures, a significant proportion also results from consumption or exposure to toxic plants or plant parts or products. The exact nature of plant poisoning varies from region to region, but certain plants are almost ubiquitous in distribution, and among these, Oleander and Datura are the prime examples. These plants are commonly encountered in almost all parts of India. While one is a wild shrub (Datura) that proliferates in the countryside and by roadsides, and the other (Oleander) is a garden plant that features in many homes. Incidents of poisoning from these plants are therefore not uncommon and may be the result of accidental exposure or deliberate, suicidal ingestion of the toxic parts. An attempt has been made to review the management principles with regard to toxicity of these plants and survey the literature in order to highlight current concepts in the treatment of poisoning resulting from both plants. HOW TO CITE THIS ARTICLE: Pillay VV, Sasidharan A. Oleander and Datura Poisoning: An Update. Indian J Crit Care Med 2019;23(Suppl 4):S250-S255.

Acute myocardial infarction in yellow oleander poisoning.

Self-harm by consuming yellow oleander seeds has become more frequent in South Asian countries, especially Sri Lanka and in southern parts of India. Yellow oleander poisoning usually presents with gastrointestinal, cardiovascular, and neurological manifestations as well as electrolyte abnormalities. Cardiac effects can manifest as nearly any type of dysrhythmia and sudden death with very few premonitory signs. To our knowledge yellow oleander poisoning related acute myocardial infarction has not yet been reported. We report a 37-year-old man with yellow oleander poisoning who had normal sinus rhythm at presentation but within few hours developed acute ST-segment myocardial infarction.

Influence of microbial community diversity and function on pollutant removal in ecological wastewater treatment.

Traditional wastewater treatments based on activated sludge often encounter the problems of bulking and foaming, as well as malodor. To solve these problems, new treatment technologies have emerged in recent decades, including the ecological wastewater treatment process, which introduces selected local plants into the treatment system. With a focus on the underlying mechanisms of the ecological treatment process, we explored the microbial community biomass, composition, and function in the treatment system to understand the microbial growth in this system and its role in pollutant removal. Flow cytometry analysis revealed that ecological treatment significantly decreased influent bacterial quantity, with around 80% removal. 16S rRNA gene sequencing showed that the ecological treatment also altered the bacterial community structure of the wastewater, leading to a significant change in Comamonadaceae in the effluent. In the internal ecological system, because most of microbes aggregate in the plant rhizosphere and the sludge under plant roots, we selected two plant species (Nerium oleander and Arundo donax) to study the characteristics of rhizosphere and sludge microbes. Metagenomic results showed that the microbial community composition and function differed between the two species, and the microbial communities of A. donax were more sensitive to seasonal effects. Combined with their greater biomass and abundance of metabolic genes, microbes associated with N. oleander showed a greater contribution to pollutant removal. Further, the biodegradation pathways of some micropollutants, e.g., atrazine, were estimated.