Assessment of rabbit spermatozoa characteristics after amygdalin and apricot seeds exposure in vivo

Toxicological qualities and detoxification trends of fruit by-products for valorization: A review

The abundant and renewable resources from fruit by-products are getting emphasis on their valorization. These by-products may contain toxic substances due to factors such as cultivation, harvesting, transportation, preservation, or processing. Hence, presenting scientific overviews of the toxicological qualities and detoxification trends of these by-products are critical for implicating their possible valorization. The present demand for valorization of fruit by-products requires emphasis and methodologies for the detoxification of any toxicants to develop healthier products. This review emphasized the toxicological qualities of by-products from fruits for which the maximum global production occurred in 2022. In this review, heavy metals (arsenic, cadmium, cobalt, chromium, nickel, lead, and mercury), mycotoxins, toxicant organic compounds, anti-nutritional factors, and pesticide/fungicide residues of the selected fruit byproducts were discussed. Current trends to reduce possible toxicants of these by-products during their valorization were emphasized. Novel functional foods valorized from these fruit by-products and future perspectives of detoxification were also focused on in this review.

Hepatocellular Carcinoma cells: activity of Amygdalin and Sorafenib in Targeting AMPK /mTOR and BCL-2 for anti-angiogenesis and apoptosis cell death

BACKGROUND

Sorafenib (Sor) is the only approved multikinase inhibitor indicated for the treatment of HCC. Previous studies have shown that amygdalin (Amy) possesses anticancer activities against several cancer cell lines; we suggested that these compounds might disrupt AMPK/mTOR and BCL-2. Therefore, the current study used integrated in vitro and in silico approaches to figure out Amy and Sor's possible synergistic activity in targeting AMPK/mTOR and BCL-2 for anti-angiogenesis and apoptosis cell death in HepG2 cells.

RESULTS

Notably, Amy demonstrated exceptional cytotoxic selectivity against HepG2 cells in comparison to normal WI-38 cells (IC50 = 5.21 mg/ml; 141.25 mg/ml), respectively. In contrast, WI-38 cells were far more sensitive to the toxicity of Sor. A substantial synergistic interaction between Amy and Sor was observed (CI50 = 0.56), which was connected to cell cycle arrest at the S and G2/M stages and increased apoptosis and potential necroptosis. Amy and Sor cotreatment resulted in the highest glutathione levels and induction of pro-autophagic genes AMPK, HGMB1, ATG5, Beclin 1, and LC3, suppressed the mTOR and BCL2 anti-apoptotic gene. Finally, the docking studies proposed that Amy binds to the active site of the AMPK enzyme, thus inhibiting its activity. This inhibition of AMPK ultimately leads to inhibition of mTOR and thus induces apoptosis in the HepG2 cells.

CONCLUSION

Although more in vivo research using animal models is needed to confirm the findings, our findings contribute to the evidence supporting Amy's potential anticancer effectiveness as an alternative therapeutic option for HCC.

Anticancer Potential and Other Pharmacological Properties of Prunus armeniaca L.: An Updated Overview

Prunus armeniaca L. (Rosaceae)-syn. Amygdalus armeniaca (L.) Dumort., Armeniaca armeniaca (L.) Huth, Armeniaca vulgaris Lam is commonly known as the apricot tree. The plant is thought to originate from the northern, north-western, and north-eastern provinces of China, although some data show that it may also come from Korea or Japan. The apricot fruit is used medicinally to treat a variety of ailments, including use as an antipyretic, antiseptic, anti-inflammatory, emetic, and ophthalmic remedy. The Chinese and Korean pharmacopeias describe the apricot seed as an herbal medicinal product. Various parts of the apricot plant are used worldwide for their anticancer properties, either as a primary remedy in traditional medicine or as a complementary or alternative medicine. The purpose of this review was to provide comprehensive and up-to-date information on ethnobotanical data, bioactive phytochemicals, anticancer potential, pharmacological applications, and toxicology of the genus Prunus armeniaca, thus providing new perspectives on future research directions. Included data were obtained from online databases such as PubMed/Medline, Google Scholar, Science direct, and Wiley Online Library. Multiple anticancer mechanisms have been identified in in vitro and in vivo studies, the most important mechanisms being apoptosis, antiproliferation, and cytotoxicity. The anticancer properties are probably mediated by the contained bioactive compounds, which can activate various anticancer mechanisms and signaling pathways such as tumor suppressor proteins that reduce the proliferation of tumor cells. Other pharmacological properties resulting from the analysis of experimental studies include neuroprotective, cardioprotective, antioxidant, immunostimulatory, antihyperlipidemic, antibacterial, and antifungal effects. In addition, data were provided on the toxicity of amygdalin, a compound found in apricot kernel seeds, which limits the long-term use of complementary/alternative products derived from P. armeniaca. This updated review showed that bioactive compounds derived from P. armeniaca are promising compounds for future research due to their important pharmacological properties, especially anticancer. A detailed analysis of the chemical structure of these compounds and their cytotoxicity should be carried out in future research. In addition, translational pharmacological studies are required for the correct determination of pharmacologically active doses in humans.

A comprehensive review of flaxseed (Linum usitatissimum L.): health-affecting compounds, mechanism of toxicity, detoxification, anticancer and potential risk

Flaxseed consumption (Linum usitatissimum L.) has increased due to its potential health benefits, such as protection against inflammation, diabetes, cancer, and cardiovascular diseases. However, flaxseeds also contains various anti-nutritive and toxic compounds such as cyanogenic glycosides, and phytic acids etc. In this case, the long-term consumption of flaxseed may pose health risks due to these non-nutritional substances, which may be life threatening if consumed in high doses, although if appropriately utilized these may prevent/treat various diseases by preventing/inhibiting and or reversing the toxicity induced by other compounds. Therefore, it is necessary to remove or suppress the harmful and anti-nutritive effects of flaxseeds before these are utilized for large-scale as food for human consumption. Interestingly, the toxic compounds of flaxseed also undergoes biochemical detoxification in the body, transforming into less toxic or inactive forms like α-ketoglutarate cyanohydrin etc. However, such detoxification is also a challenge for the development, scalability, and real-time quantification of these bioactive substances. This review focuses on the health affecting composition of flaxseed, along with health benefits and potential toxicity of its components, detoxification methods and mechanisms with evidence supported by animal and human studies.

In vitro assessment of Prunus japonica seed extract on human spermatozoa hypermotility and intracellular alkalization

Prunus japonica var. nakaii is used in traditional Korean medicine to treat various conditions; however, it has not been investigated for treating male infertility. In this study, we investigated the in vitro effects of the ethanolic extract of P. japonica seeds on human sperm motility and identified its mechanism of action. Eleven male volunteers were selected, and the effects of the extract on human spermatozoa were assessed through a computer-assisted semen analysis. The P. japonica seed extract increased the percentage of total and progressive motility of spermatozoa. To understand the mechanism of action, we monitored intracellular alkalization using flow cytometry and obtained electrophysiological recordings of human voltage-gated proton channels hHv1 that were overexpressed in HEK-293 cells. The extract shifted the activation curves in a concentration-dependent manner. Two major constituents of the extract, linoleic acid and oleic acid, exhibited proton channel activity. Our in vitro experiments suggested that P. japonica seed extract could be potentially used to rescue sperm motility in idiopathic infertility patients via pharmacological modulation of the proton channels during capacitation. Therefore, our results indicate the therapeutic potential of P. japonica seed extract for treating male infertility.

The Multiple Actions of Amygdalin on Cellular Processes with an Emphasis on Female Reproduction

The present review summarizes the current knowledge on the provenance and properties, metabolism and toxicity, mechanism of action, physiological, and therapeutic roles of amygdalin-a molecule present in the seeds of apricot and other plants-with an emphasis on the action of amygdalin on reproductive processes, particularly in the female. Amygdalin influences physiological processes including female reproduction at various regulatory levels via extra- and intracellular signaling pathways regulating secretory activity, cell viability, steroidogenesis, proliferation, and apoptosis. On the other hand, while being metabolized in the body, amygdalin releases significant amounts of cyanide, which may lead to acute health hazard in those individuals who may be at risk. Despite some contradictions in the available data about benefits and toxic effects of amygdalin, its potential applicability at low doses may present a promising tool for regulation of various reproductive and other physiological processes including disease management primarily in cancer phytotherapy, animal production, medicine, and biotechnology. However, further research involving carefully designed dose-response studies is required to overcome the possible side effects of amygdalin and assure its safety as a therapeutic agent.

Consumption of bitter apricot seeds affects lipid and endocrine profile in women

Natural products have been attracting increasing attention in human diet, both due to the possible negative effects of synthetic food additives on human health and the increased consumer perception. Apricot seeds contain a wide variety of bioactive components and their consumption is associated with a reduced risk of chronic diseases. The objective of the present study was to evaluate the effect of consumption of bitter apricot seeds on blood lipid and endocrine profile in Slovak women (n = 18, 41.60 ± 11.28 years) of reproductive age. Volunteers consumed 60 mg.kg^-1 of body weight of bitter apricot seeds divided into 8-12 doses daily for 42 days. During the experiment, three blood collections were carried out (at the beginning of the experiment - day 0, and after 21 and 42 days of consumption apricot seeds). Lipid profile was measured in terms of - total cholesterol (T-C, enzymatic photometric method), low-density cholesterol (LDL-C, calculated using the Friedewald equation), high-density cholesterol (HDL-C, direct clearance method), triglycerides (TG, enzymatic colorimetric method) whereas endocrine profile - follicle stimulating hormone (FSH), luteinizing hormone (LH), prolactin (PRL), progesterone (P4), 17β-estradiol (E2), testosterone, and androstenedione was assessed by ELISA. The blood levels of T-C, HDL-C and T-C did not change significantly (P > 0.05), however, the level of LDL-C decreased significantly (P < 0.05) after 42 days. On the other hand, there was a significant (P < 0.05) increase of T-C and TG after 21 days. The blood level of FSH, testosterone and androstenedione increased significantly (P < 0.05) although the levels of LH, PRL, P4 and E2 did not change (P > 0.05) after 42 days. The level of PRL and testosterone significantly (P < 0.05) increased and E2 significantly decreased after 21 days of apricot seeds consumption. The study suggests that daily consumption of apricot seeds may affect plasma lipid and endocrine profile in women of reproductive age.

Genotoxic and antigenotoxic potential of amygdalin on isolated human lymphocytes by the comet assay

Amygdalin is a cyanogenic glycoside, mainly present in the seeds of the Rosaceae family such as apricots, peaches, and bitter almond. In this study, in vitro genotoxic and antigenotoxic effects of amygdalin have been investigated on human peripheral blood lymphocytes using the comet assay. The antigenotoxic effect of amygdalin was performed against hydrogen peroxide (H2O2) using three different treatment types (pre-, simultaneous, and post-treatment). The isolated lymphocytes were incubated with different concentrations of amygdalin (0.86-13.75 µg/ml) alone and in combination with H2O2 (100 µM). The results indicated that amygdalin exhibited an antigenotoxic effect against H2O2, but it did not induce the genotoxic effect alone in tested concentrations in vitro on human lymphocytes. PRACTICAL APPLICATIONS: Amygdalin is a natural compound used in alternative medicine as an anti-cancer, antipyretic, and cough suppressant. The comet assay which is relatively simple, rapid, sensitive, and economically efficient, measures the changes in genomic stability. Assessment of amygdalin alone has no genotoxic effect on human lymphocytes. Moreover, antigenotoxicity applications (pre-, simultaneous, and post-treatments) of amygdalin significantly reduced the DNA damage induced by H2O2 on isolated human lymphocytes. In conclusion, amygdalin is not genotoxic, also, it exhibited antigenotoxic activity against oxidatively damaged DNA due to its antioxidant properties on human lymphocytes.