Andaliman (Zanthoxylum acanthopodium DC.) fruit ethanolic extract exerts attenuative effect on hyperglycemia, sensory and motoric function's disorders in alloxan-induced diabetic mice.

Objective: Andaliman (Zanthoxylum acanthopodium) is a potent medicinal plant in Asia. This present study aimed to reveal the effectivity of Andaliman fruit extract in alleviating hyperglycemia, sensory and motoric balance disorders, histopathology of the cerebellum, and tissue oxidative stress in diabetic mice induced by alloxan. Materials and Methods: Diabetes induction was performed by intraperitoneally injecting alloxan monohydrate [200 mg/kg body weight (BW)]. Subsequently, the mice were treated daily with an ethanolic extract of Andaliman fruit (0, 150, 300, 450 mg/kg BW per oral) for 28 days, followed by measurements of blood glucose, paw sensitivity, motoric balance, histopathology of the cerebellum, and malondialdehyde (MDA) levels. Moreover, the phytochemical constituents of the extract were elucidated by liquid chromatography. Results: Higher doses of Andaliman fruit extract could significantly attenuate the elevation of random and fasting blood glucose (p < 0.05) and improve paw sensitivity responses (p < 0.05) and motoric balances (p < 0.05) in diabetic mice. Moreover, Andaliman fruit extract could significantly attenuate the degeneration of cerebellar Purkinje cells (p < 0.05) and suppress MDA levels in the blood (p < 0.05) while blunting the MDA in the brain tissue (p < 0.05). Phytochemical screening revealed 39 compounds in the Andaliman extract belonging to the groups of alkaloids (26 compounds), flavonoids (12 compounds), and terpenoids (1 compound). Conclusion: The ethanolic extract of Andaliman fruit is capable of ameliorating diabetic neuropathy, motor balance disorders, and Purkinje cell degeneration while also reducing oxidative stress in the peripheral system. Hence, Andaliman extract is a promising candidate for formulation as an herbal remedy against the detrimental outcomes of diabetes mellitus.

Extracted yam bean (Pachyrhizus erosus (L.) Urb.) fiber counteracts adiposity, insulin resistance, and inflammation while modulating gut microbiota composition in mice fed with a high-fat diet.

Background and purpose: Yam bean (Pachyrhizus erosus) is a potent medicinal plant exerting therapeutical effects against diseases. However, investigations on the health benefits of its fiber remain limited. This study aimed to investigate the potential of yam bean fiber (YBF) against a high-fat diet (HFD)-induced metabolic diseases, inflammation, and gut dysbiosis. Experimental approach: Adult male mice were assigned to four groups (8 each), namely a normal diet-fed group (ND), HFD-fed group, and HFD supplemented with YBF groups (HFD + YBF) at a dose of 2.5% and 10%, respectively. Treatments were implemented for ten weeks. Thereafter, indicators of metabolic diseases, oxidative stress, inflammation, and gut microbiota composition were determined. Findings / Results: A dosage of 10% YBF significantly inhibited excessive body weight gain (2.3 times lower than HFD group) and white adipose tissue (WAT) mass (2.2 times lower than HFD group) while sustaining brown adipose tissue mass. YBF prevented malondialdehyde elevation, catalase activity reduction, and expression of the interleukin-6 increment (2.7 times lower than the HFD group) within the WAT. Furthermore, YBF sustained normoglycaemia, glucose tolerance, and insulin sensitivity while precluding hyperinsulinemia. YBF modulated the gut microbiota community by increasing health-promoting microbiota including Lactobacillus reuteri, L. johnsonii, and inhibiting a pathogenic Mucispirillum sp. YBF prevented histopathology and inflammation of the colon. Conclusion and implications: YBF at the dose of 10% is proved to be useful in the prevention of diet-induced metabolic diseases, microbiota dysbiosis, and inflammation. Hence, YBF is recommended as a potential natural-based remedy to diminish the detrimental effects of high-fat foods.

Detection of Voltage-Gated Sodium Channel (VGSC) Mutation in Deltamethrin-Resistant Blattella germanica L. from Indonesia.

<b>Background and Objective:</b> German cockroach (<i>Blattella germanica</i> L.) is one of the most common residential pests in Indonesia. Controlling the population face obstacles due to insecticide resistance, especially to deltamethrin. This research investigated the resistance status and the possibility of a Voltage-Gated Sodium Channel (VGSC) knockdown resistance mutation (L1014F) in two field strains of German cockroaches collected from two cities in Indonesia (Bukittinggi, named RMKN-BKT and Bandung, named KRSA-BDG) with VCRU-WHO as the standard strain. <b>Materials and Methods:</b> This study started with a bioassay test to determine the lethal dose of 50% (LD₅₀) for each strain and followed by a molecular test for mutation detection. <b>Results:</b> The results showed that the RMKN-BKT and KRSA-BDG strains were highly resistant to deltamethrin with RR50 values of 80,090 times and 73,272 times, respectively. Only the RMKN-BKT strain was shown to carry L1014F kdr mutation which lead to an amino acid replacement from leucine (TTG) to phenylalanine (TTC). Two silent mutations were also found in both field strains at codons 983 (TGC/cysteine→TGT/cysteine) and 984 (GGG/ glycine→GGA/glycine) which were suggested as polymorphism phenomena. The absence of the L1014F mutation in the Bandung strain does not exclude the possibility of the presence of the VGSC mutation at other points. <b>Conclusion:</b> It requires subsequent investigation in mutation detection at other points and the possible presence of other resistance mechanisms to get a precise solution in the population control. Bioinsecticides may stand as a breakthrough so that the strategy will no longer focus on insecticides.

Detection of Ace-1 Mutation in Temephos-Resistant Aedes aegypti L. in West Sumatra, Indonesia.

<b>Background and Objective:</b> Dengue cases have increased while the spread is getting broader worldwide. Temephos has been frequently used to control the larvae of the <i>Aedes aegypti</i> L., the primary vector of dengue. The intensive use of this larvicide has given rise to resistance. This study aims to determine the susceptibility status of <i>Ae. aegypti</i> to temephos and examine the two mutations (F290V and F455W) that possibly occur in the <i>Ace-1</i> gene of <i>Ae. aegypti</i> from Salido Sub-District, IV Jurai District, Pesisir Selatan Regency. <b>Materials and Methods:</b> The susceptibility test was performed referring to a standard method of the World Health Organization, followed by a molecular test (polymerase chain reaction) and sequencing. <b>Results:</b> The results showed that the larvae of <i>Ae. aegypti</i> have been tolerant to temephos (0.012 mg L¹) with a percentage of larval mortality of 91.67%. The sequencing analysis in the <i>Ace-1</i> gene revealed the absence of F290V and F455W mutation in temephos-resistant <i>Ae. aegypti</i>, but a point mutation was detected at codon 506. This mutation shifts the ACA codon to ACT, but still codes for the same amino acid, threonine. <b>Conclusion:</b> Our study indicates the presence of other resistance mechanisms in the major dengue vector of the Salido District. Implementation of the alternative population control strategy is required to prevent the temephos resistance further.

Efficacy of Noni (Morinda citrifolia L.) Ethanolic Leaf Extract Against German Cockroach (Blattella germanica L.).

<b>Background and Objective:</b> The ethanol extract of noni leaves (<i>Morinda citrifolia</i> L.) can be used as insecticides to control populations of German cockroaches that have been resistant to synthetic insecticides. This study aimed to determine the potency of the ethanol extract of noni leaves to kill and repel German cockroaches and affect the amount of food consumed. <b>Materials and Methods:</b> The methods used in this study were the contact toxicity test, the repellency test and the food consumption test. The noni leaves extract and German cockroach populations were provided in the laboratory. <b>Results:</b> The noni leaves extract concentration of 20% (residue of 3.14 mg cm² ¹) was very effective in killing the standard population and effective in killing the field population of German cockroaches. The sub-lethal concentration noni leaves extract of 0.36% (residue 0.056 mg cm² ¹) and 1.08% (residue 0.169 mg cm² ¹) was very high grade as repellent of German cockroaches. The sub-lethal concentration of noni leaves extract did not inhibit the amount of food consumption in German cockroach populations. <b>Conclusion:</b> Leaves of noni plants can be used as bioinsecticides to control German cockroach populations that have been resistant to commercial insecticides.

Potency of Papaya Leaf (Carica papaya L.) as Toxicant and Repellent against German Cockroach (Blattella germanica L.).

BACKGROUND AND OBJECTIVE: Papaya leaves have the potency to be developed as alternative insecticide to control the German cockroaches that have been resistant to synthetic insecticides. This study aimed to determine the potency of ethanolic extract of papaya leaf as toxicant and repellent against 2 populations of German cockroaches which are known resistant to synthetic insecticide. MATERIALS AND METHODS: The methods that used was contact toxicity test and repellency test. The ethanolic extract of papaya leaf residues were used in contact toxicity test of 4 residues and a sub-lethal residue in repellency test. Three populations of German cockroach were collected in field and kept in laboratory. RESULTS: Lethal residue 50% (LR50) of ethanolic extract of papaya leaf between 2.97-4.72 mg cm-2 while lethal residue 90% (LR90) between 6.05-8.92 mg cm-2 and very effective killed all population of German cockroach. Repellency value of ethanolic extract of papaya leaf with a sub-lethal residue of 0.39 mg cm-2 between 88.89 -94.74% and level of repellency was very repellent. CONCLUSION: Ethanolic extract of papaya leaf could be formulated as a potent natural insecticide to control populations of German cockroach that have been resistant to synthetic insecticides.

Jicama (Pachyrhizus erosus) fiber prevents excessive blood glucose and body weight increase without affecting food intake in mice fed with high-sugar diet.

OBJECTIVE: Jicama (Pachyrhizus erosus) fiber has been documented to exert an immunomodulatory effect both in vitro and in vivo. However, its beneficial effect against metabolic syndrome remains unknown. This study aimed to reveal whether the jicama fiber (JF) could prevent the development of diabetes and obesity caused by a high-sugar diet (HSD). MATERIALS AND METHODS: The JF was isolated from its tuberous part and subsequently used as a supplemental diet for adult male Bagg and Albino (BALB)/c mice fed with a HSD. Four different diet paradigms including normal diet, HSD (30% sucrose), and HSD in combination with 10% and 25% of JF, respectively, were deployed continuously for 8 weeks. Furthermore, the blood glucose level, glucose tolerance, body weight, food and water consumption as well as epididymal white adipose tissue (WAT) and interscapular brown adipose tissue (BAT) mass were determined. RESULTS: Our results revealed that supplementation of 25% JF could significantly prevent the blood glucose increase, excessive body weight gain, and glucose intolerance in mice fed with HSD. Moreover, 10% and 25% JF blunted the HSD-induced WAT mass gain but failed to counteract the depletion of BAT mass. Furthermore, the fiber supplementation elicited a minimum effect on rhythm and total food and water intake. CONCLUSION: The JF could effectively sustain blood glucose homeostasis as well as improve body weight and WAT mass profile against the development of diabetes and obesity caused by HSD.