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Bibliography Tag: glyphosate

Wang et al., 2019

Wang, L., Deng, Q., Hu, H., Liu, M., Gong, Z., Zhang, S., Xu-Monette, Z. Y., Lu, Z., Young, K. H., Ma, X., & Li, Y.; “Glyphosate induces benign monoclonal gammopathy and promotes multiple myeloma progression in mice;” Journal of Hematology & Oncology, 2019, 12(1), 70; DOI: 10.1186/s13045-019-0767-9.

ABSTRACT:

BACKGROUND: Glyphosate is the most widely used herbicide in the USA and worldwide. There has been considerable debate about its carcinogenicity. Epidemiological studies suggest that multiple myeloma (MM) and non-Hodgkin lymphoma (NHL) have a positive and statistically significant association with glyphosate exposure. As a B cell genome mutator, activation-induced cytidine deaminase (AID) is a key pathogenic player in both MM and B cell NHL.

METHODS: Vk*MYC is a mouse line with sporadic MYC activation in germinal center B cells and considered as the best available MM animal model. We treated Vk*MYC mice and wild-type mice with drinking water containing 1000 mg/L of glyphosate and examined animals after 72 weeks.

RESULTS: Vk*MYC mice under glyphosate exposure developed progressive hematological abnormalities and plasma cell neoplasms such as splenomegaly, anemia, and high serum IgG. Moreover, glyphosate caused multiple organ dysfunction, including lytic bone lesions and renal damage in Vk*MYC mice. Glyphosate-treated wild-type mice developed benign monoclonal gammopathy with increased serum IgG, anemia, and plasma cell presence in the spleen and bone marrow. Finally, glyphosate upregulated AID in the spleen and bone marrow of both wild-type and Vk*MYC mice.

CONCLUSIONS: These data support glyphosate as an environmental risk factor for MM and potentially NHL and implicate a mechanism underlying the B cell-specificity of glyphosate-induced carcinogenesis observed epidemiologically. FULL TEXT

Picchi, 2019

Aimee Pichhi, “Cheerios, Nature Valley cereals contain Roundup ingredient, study finds,” CBS News, June 13, 2019.

SUMMARY:

CBS This Morning coverage of the EWG report on glyphosate residues in cereals. Full Video

Kubsad et al., 2019

Kubsad, D., Nilsson, E. E., King, S. E., Sadler-Riggleman, I., Beck, D., & Skinner, M. K.; “Assessment of Glyphosate Induced Epigenetic Transgenerational Inheritance of Pathologies and Sperm Epimutations: Generational Toxicology;” Scientific Reports, 2019, 9(1), 6372; DOI: 10.1038/s41598-019-42860-0.

ABSTRACT:

Ancestral environmental exposures to a variety of factors and toxicants have been shown to promote the epigenetic transgenerational inheritance of adult onset disease. One of the most widely used agricultural pesticides worldwide is the herbicide glyphosate (N-(phosphonomethyl)glycine), commonly known as Roundup. There are an increasing number of conflicting reports regarding the direct exposure toxicity (risk) of glyphosate, but no rigorous investigations on the generational actions. The current study using a transient exposure of gestating F0 generation female rats found negligible impacts of glyphosate on the directly exposed F0 generation, or F1 generation offspring pathology. In contrast, dramatic increases in pathologies in the F2 generation grand-offspring, and F3 transgenerational great-grand-offspring were observed. The transgenerational pathologies observed include prostate disease, obesity, kidney disease, ovarian disease, and parturition (birth) abnormalities. Epigenetic analysis of the F1, F2 and F3 generation sperm identified differential DNA methylation regions (DMRs). A number of DMR associated genes were identified and previously shown to be involved in pathologies. Therefore, we propose glyphosate can induce the transgenerational inheritance of disease and germline (e.g. sperm) epimutations. Observations suggest the generational toxicology of glyphosate needs to be considered in the disease etiology of future generations. FULL TEXT

Sacala & Roszak, 2019

Sacała, Elżbieta, & Roszak, Michał, “Mitigation of glyphosate-based herbicide toxicity in maize (Zea mays L.) seedlings by ascorbic acid,” Toxicological & Environmental Chemistry, 2019, 100(5-7), 550-559. DOI: 10.1080/02772248.2019.1567731.

ABSTRACT:

The toxicity of glyphosate at 3.6 mg L−1 to maize seedlings raised from un-treated seeds and the effectiveness of seed pretreatment by soaking in 0.25 mmol L−1 ascorbic acid (AsA) solution for mitigation of toxicity were evaluated in hydroponic culture. Glyphosate dramatically reduced the growth of roots and photosynthetic pigments in the leaves but increased protein content in the leaves. Superoxide dismutase activity and AsA concentration in the roots were increased, and guaiacol peroxidase (GPOX) activity was unaffected. Pretreatment with AsA improved the dry mass of the roots and shoots, increased the protein content in roots and leaves, and significantly decreased the activity of GPOX in roots. The positive effect of AsA treatment was not associated with more efficient functioning of the antioxidative system. FULL TEXT

Winchester et al., 2019

Winchester, Paul, Reiter, Jill L., Proctor, Cathy, Gerona, Roy R., Avery, Kayleigh D., Bromm, Jennifer R., Elsahy, Deena A, Hadley, Emily A., McGraw, Sara N., & Jones, Dana D., “Glyphosate in 1st Trimester of Pregnancy: Herbicides in the Womb,” 2019, Presented at the Pediatric Academic Societies (PAS) Meeting 2019, 4/24-5/1/2019, Baltimore, MD.

ABSTRACT:

BACKGROUND: Our previous study demonstrated that >90% of pregnant Midwest women had detectable glyphosate (GLY) in their urine. Most glyphosate exposure occurs through food & certain beverages but not through drinking water. Shorter pregnancies, rural address and caffeinated beverages were associated with higher GLY levels. The cohort was small and predominantly Caucasian. The current study was needed to confirm high rates of GLY detection in a racially more diverse high risk population.
OBJECTIVE: Will GLY be detected in a majority of pregnancies regardless of race/ethnicity? Are GLY levels associated with adverse pregnancy outcomes? Do GLY levels vary by season of collection in pregnancy?
DESIGN/METHODS: Prospective observation study. Discarded urine from 1st trimester pregnancies were collected prospectively from a high risk University obstetrical clinic. All pregnancy outcomes and neonatal outcomes were abstracted. Urines were frozen, shipped to analytical lab (USCF, RG) for analysis. Urine GLY (Glyphosate (N(phosphomethyl) glycine) was analyzed via liquid chromatography-tandem mass spectrometry (LC-MS/MS), limit of quantification of 0.1 ng/mL. GLY measured as independent variable was compared to multiple variables using bivariate analysis.
RESULTS: GLY was detected in 99% (186 of 187) pregnancies. Levels varied from 1.004 to 10.31ng/mL with geometric mean 3.264ng/mL. Mean maternal age was 30, with 69% white, 4.2% Hispanic, 12% Black, 3.7% Asian and one “other”. GLY levels did not differ significantly by racial/ethnic group. GLY levels were not significantly difference between preterm and term outcomes, multiple/singleton or between fetal loss and live births. GLY levels were higher with increasing gestation at enrollment with 4-8 weeks GLY 2.73 vs 9-13 weeks 3.51(p=.0098). Significantly higher GLY levels were found in April-July pregnancies vs other months(3.64 vs 3.07 p=.03). NICU admission rates were 85% for preterm and 35% for term. Birth defect rate was12% and 37% had intrauterine drug exposure or NAS. Preterm birth rate was 31%. CONCLUSIONS: Glyphosate was found in virtually all of these high risk pregnancies in the first trimester regardless of race/ethnicity, plurality, fetal loss or gestation at birth. GLY levels rose with increasing gestation in the first trimester suggesting that gestation at measurement impacts GLY levels. Dietary sources contribute to GLY but we did find April-July are associated with higher GLY levels than other months. The fetal epigenetic consequences of 1st trimester GLY exposure remains unknown. FULL TEXT

Yousef et al., 1995

Yousef, M. I., Salem, M. H., Ibrahim, H. Z., Helmi, S., Seehy, M. A., & Bertheussen, K., “Toxic effects of carbofuran and glyphosate on semen characteristics in rabbits,” Journal of Environmental Science and Health, Part B, 1995, 30(4), 513-534. DOI: 10.1080/03601239509372951.

ABSTRACT:

The present study was undertaken to investigate the effect of chronic treatment with two sublethal doses of Carbofuran (carbamate insecticide) and Glyphosate (organophosphorus herbicide) on body weight and semen characteristics in mature male New Zealand white rabbits. Pesticide treatment resulted in a decline in body weight, libido, ejaculate volume, sperm concentration, semen initial fructose and semen osmolality. This was accompanied with increases in the abnormal and dead sperm and semen methylene blue reduction time. The hazardous effect of these pesticides on semen quality continued during the recovery period, and was dose-dependent. These effects on sperm quality may be due to the direct cytotoxic effects of these pesticides on spermatogenesis and/or indirectly via hypothalami-pituitary-testis axis which control the reproductive efficiency.

Perego et al., 2017

Perego, Maria Chiara, Caloni, Francesca, Cortinovis, Cristina, Schutz, Luis F., Albonico, Marco, Tsuzukibashi, Denise, & Spicer, Leon J., “Influence of a Roundup formulation on glyphosate effects on steroidogenesis and proliferation of bovine granulosa cells in vitro,” Chemosphere, 2017, 188, 274-279. DOI: 10.1016/j.chemosphere.2017.09.007.

ABSTRACT:

Glyphosate (N-phosphonomethyl-glycine) is a non-selective systemic herbicide widely used worldwide. The purpose of this study is to determine if glyphosate alone (GLPH) or in formulation with Roundup (G-RU) can affect granulosa cell proliferation and steroid production. Four experiments were conducted. In Exp. 1, 10 and 300 μg/mL of GLPH had no effect (P > 0.05) on cell numbers, estradiol or progesterone production, whereas 10 and 300 μg/mL of G-RU dramatically decreased (P < 0.05) cell numbers and estradiol and progesterone production. In Exp. 2, G-RU at 0.1 μg/mL had no significant effect whereas G-RU at 10 μg/mL decreased (P < 0.05) GC numbers, progesterone and estradiol production. In the absence of IGF1 but presence of FSH, 1 μg/mL of G-RU decreased (P < 0.05) estradiol production, whereas in the presence of IGF1 and FSH, 1 μg/mL of G-RU increased (P < 0.05) cell numbers, progesterone and estradiol production. In Exp. 3, IGF1 significantly increased cell numbers (by 2.8-fold) and estradiol (by 17.8-fold) and progesterone (by 6.1-fold) production. GLPH at 10 μg/mL alone had no significant effect on FSH-induced (i.e., basal) or FSH plus IGF1-induced cell numbers, estradiol or progesterone production. However, G-RU at 10 μg/mL significantly inhibited FSH plus IGF1-induced cell numbers, estradiol and progesterone production by 65%–91%. In Exp. 4, 48 h treatment of G-RU had no significant effect on viability of attached cells. In conclusion, the present studies demonstrate that GLPH and particularly G-RU may have the potential to impair reproductive function in cattle.

Owagboriaye et al., 2019

Owagboriaye, F., Dedeke, G., Ademolu, K., Olujimi, O., Aladesida, A., & Adeleke, M., “Comparative studies on endogenic stress hormones, antioxidant, biochemical and hematological status of metabolic disturbance in albino rat exposed to roundup herbicide and its active ingredient glyphosate,” Environmental Science and Pollution Research International, 2019. DOI: 10.1007/s11356-019-04759-1.

ABSTRACT:

There have been growing concerns and uncertainty about reports attributing the metabolic disturbance induced by a commercial formulation of glyphosate-based herbicide to its active ingredient. We therefore compared the effects of Roundup Original(R) and its active ingredient glyphosate on some hypothalamic-pituitary-adrenal (HPA) hormones and oxidative stress markers, biochemical and hematological profiles in 56 adult male albino rats randomly assigned to seven treatments of eight rats per treatment. The rats were orally exposed to Roundup Original(R) and its active ingredient daily at 3.6 mg/kg body weight (bw), 50.4 and 248.4 mg/kgbw of glyphosate equivalent concentrations for 12 weeks, while control treatment received distilled water. Serum concentrations of corticosterone, adrenocorticotropic hormone, aldosterone and concentration of oxidative stress marker, biochemical and hematological profiles in the blood were determined. Concentrations of corticosterone and aldosterone were significantly higher (p < 0.05) in rats treated with Roundup in a dose-dependent manner. Reduced glutathione concentration, catalase, and butyrylcholinesterase activities reduced significantly in rats treated with Roundup relative to those treated with the active ingredient. Lipid peroxidation was observed in rats treated with Roundup. Biochemical and hematological profiles of rats treated with Roundup were significantly altered (p < 0.05). However, significant changes in only acid phosphatase, lactase dehydrogenase, bilirubin, and white blood cells in rats treated with the active ingredient at 50.4 mg/kg were observed. The severe metabolic disturbance and stress observed in rats treated with the commercial formulation of Roundup herbicide may not be associated with the mild changes induced by the active ingredient.

Jasper et al., 2012

Jasper, R., Locatelli, G. O., Pilati, C., & Locatelli, C., “Evaluation of biochemical, hematological and oxidative parameters in mice exposed to the herbicide glyphosate-Roundup(®),” Interdisciplinary Toxicology, 2012, 5(3), 133-140. DOI: 10.2478/v10102-012-0022-5.

ABSTRACT:

We evaluated the toxicity of hepatic, hematological, and oxidative effects of glyphosate-Roundup® on male and female albino Swiss mice. The animals were treated orally with either 50 or 500 mg/kg body weight of the herbicide, on a daily basis for a period of 15 days. Distilled water was used as control treatment. Samples of blood and hepatic tissue were collected at the end of the treatment. Hepatotoxicity was monitored by quantitative analysis of the serum enzymes ALT, AST, and γ-GT and renal toxicity by urea and creatinine. We also investigated liver tissues histopathologically. Alterations of hematological parameters were monitored by RBC, WBC, hemoglobin, hematocrit, MCV, MCH, and MCHC. TBARS (thiobarbituric acid reactive substances) and NPSH (non-protein thiols) were analyzed in the liver to assess oxidative damage. Significant increases in the levels of hepatic enzymes (ALT, AST, and γ-GT) were observed for both herbicide treatments, but no considerable differences were found by histological analysis. The hematological parameters showed significant alterations (500 mg/kg body weight) with reductions of RBC, hematocrit, and hemoglobin, together with a significant increase of MCV, in both sexes of mice. In males, there was an important increase in lipid peroxidation at both dosage levels, together with an NPSH decrease in the hepatic tissue, whereas in females significant changes in these parameters were observed only at the higher dose rate. The results of this study indicate that glyphosate-Roundup® can promote hematological and hepatic alterations, even at subacute exposure, which could be related to the induction of reactive oxygen species. FULL TEXT

Ingaramo et al., 2016

Ingaramo, P. I., Varayoud, J., Milesi, M. M., Schimpf, M. G., Munoz-de-Toro, M., & Luque, E. H., “Effects of neonatal exposure to a glyphosate-based herbicide on female rat reproduction,” Reproduction, 2016, 152(5), 403-415. DOI: 10.1530/REP-16-0171.

ABSTRACT:

In this study, we investigated whether neonatal exposure to a glyphosate-based herbicide (GBH) alters the reproductive performance and the molecular mechanisms involved in the decidualization process in adult rats. Newborn female rats received vehicle or 2 mg/kg/day of a GBH on postnatal days (PND) 1, 3, 5 and 7. On PND90, the rats were mated to evaluate (i) the reproductive performance on gestational day (GD) 19 and (ii) the ovarian steroid levels, uterine morphology, endometrial cell proliferation, apoptosis and cell cycle regulators, and endocrine pathways that regulate uterine decidualization (steroid receptors/COUP-TFII/Bmp2/Hoxa10) at the implantation sites (IS) on GD9. The GBH-exposed group showed a significant increase in the number of resorption sites on GD19, associated with an altered decidualization response. In fact, on GD9, the GBH-treated rats showed morphological changes at the IS, associated with a decreased expression of estrogen and progesterone receptors, a downregulation of COUP-TFII (Nr2f2) and Bmp2 mRNA and an increased expression of HOXA10 and the proliferation marker Ki67(Mki67) at the IS. We concluded that alterations in endometrial decidualization might be the mechanism of GBH-induced post-implantation embryo loss.  FULL TEXT

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