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RESEARCH ARTICLE
Contents Vol 34(12)

Tributyltin chloride exposure to post-ejaculatory sperm reduces motility, mitochondrial function and subsequent embryo development

Bradford W. Daigneault https://orcid.org/0000-0002-8329-4221 A * and João D. de Agostini Losano https://orcid.org/0000-0002-7947-4027 A
+ Author Affiliations
- Author Affiliations

A Department of Animal Sciences, University of Florida, Gainesville, FL, USA.

* Correspondence to: b.daigneault@ufl.edu

Handling Editor: Marc Yeste

Reproduction, Fertility and Development 34(12) 833-843 https://doi.org/10.1071/RD21371
Published online: 25 May 2022

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

Context: Male exposure to environmental toxicants can disrupt spermatogenesis and sperm function. However, consequences of environmentally relevant organotin exposure to post-ejaculatory mammalian spermatozoa on fertility are poorly understood.

Aims: Determine the consequences of tributyltin chloride (TBT) exposure on post-ejaculatory sperm function and subsequent embryo development.

Methods: Frozen-thawed bovine sperm were exposed to TBT (0.1–100 nM) for 90 min (acute) and 6 h (short-term) followed by quantification of multiple sperm kinematics via computer aided sperm analysis. JC-1 dye was used to measure mitochondrial membrane potential. Sperm were then exposed to TBT for 90 min in non-capacitating conditions, washed several times by centrifugation and applied to gamete co-incubation for in vitro embryo production to the blastocyst stage.

Key results: 100 nM TBT decreased total motility (88 vs 79%), progressive motility (80 vs 70%) curvilinear velocity and beat-cross frequency for 90 min with similar phenotypes at 6 h (P < 0.05). Sperm mitochondrial membrane potential was lower in 10 and 100 nM groups after 6 h (P ≤ 0.05). Embryos fertilised from TBT-exposed sperm had reduced cleavage rate (80 vs 62%) and 8–16 cell morula development (55 vs 24%) compared to development from unexposed sperm.

Conclusions: Exposure of post-ejaculatory mammalian sperm to TBT alters sperm function through lowered motility and mitochondrial membrane potential. Fertilisation of oocytes with TBT-exposed sperm reduces embryo development through mechanisms of paternal origin.

Implications: Acute and short-term environmental exposure of post-ejaculatory sperm to organotins and endocrine disrupting chemicals such as TBT contribute to idiopathic subfertility and early embryo loss.

Keywords: embryo, environment, mitochondria, motility, organotin, paternal, sperm, toxin, tributyltin.


References

Ahmed, MG, Ibrahim, ME-D, El Sayed, HR, and Ahmed, SM (2021). Short term chronic toxicity of tributyltin on the testes of adult albino rats and the possible protective role of omega-3. Human & Experimental Toxicology 40, 214–230.
Short term chronic toxicity of tributyltin on the testes of adult albino rats and the possible protective role of omega-3.Crossref | GoogleScholarGoogle Scholar |

Amaral, A, Lourenço, B, Marques, M, and Ramalho-Santos, J (2013). Mitochondria functionality and sperm quality. Reproduction 146, R163–R174.
Mitochondria functionality and sperm quality.Crossref | GoogleScholarGoogle Scholar | 23901129PubMed |

Antizar-Ladislao, B (2008). Environmental levels, toxicity and human exposure to tributyltin (TBT)-contaminated marine environment. A review. Environment International 34, 292–308.
Environmental levels, toxicity and human exposure to tributyltin (TBT)-contaminated marine environment. A review.Crossref | GoogleScholarGoogle Scholar | 17959247PubMed |

Buck Louis, GM, Smarr, MM, Sun, L, Chen, Z, Honda, M, Wang, W, Karthikraj, R, Weck, J, and Kannan, K (2018). Endocrine disrupting chemicals in seminal plasma and couple fecundity. Environmental Research 163, 64–70.
Endocrine disrupting chemicals in seminal plasma and couple fecundity.Crossref | GoogleScholarGoogle Scholar | 29426029PubMed |

Cardullo, RA, and Baltz, JM (1991). Metabolic regulation in mammalian sperm: mitochondrial volume determines sperm length and flagellar beat frequency. Cell Motility Cytoskeleton 19, 180–188.
Metabolic regulation in mammalian sperm: mitochondrial volume determines sperm length and flagellar beat frequency.Crossref | GoogleScholarGoogle Scholar |

Chen, Y, Zuo, Z, Chen, S, Yan, F, Chen, Y, Yang, Z, and Wang, C (2008). Reduction of spermatogenesis in mice after tributyltin administration. Toxicology 251, 21–27.
Reduction of spermatogenesis in mice after tributyltin administration.Crossref | GoogleScholarGoogle Scholar | 18687377PubMed |

Chen, M, Guo, J, Ruan, J, Yang, Z, He, C, and Zuo, Z (2020). Neonatal exposure to environment-relevant levels of tributyltin leads to uterine dysplasia in rats. Science of the Total Environment 720, 137615.
Neonatal exposure to environment-relevant levels of tributyltin leads to uterine dysplasia in rats.Crossref | GoogleScholarGoogle Scholar | 32325588PubMed |

Daigneault, BW (2021). Dynamics of paternal contributions to early embryo development in large animals. Biology of Reproduction 104, 274–281.
Dynamics of paternal contributions to early embryo development in large animals.Crossref | GoogleScholarGoogle Scholar | 32997138PubMed |

Daigneault, BW, Rajput, S, Smith, GW, and Ross, PJ (2018). Embryonic POU5F1 is required for expanded bovine blastocyst formation. Scientific Reports 8, 7753.
Embryonic POU5F1 is required for expanded bovine blastocyst formation.Crossref | GoogleScholarGoogle Scholar | 29773834PubMed |

de Araújo, JFP, Podratz, PL, Merlo, E, Sarmento, IV, da Costa, CS, Niño, OMS, Faria, RA, Freitas Lima, LC, and Graceli, JB (2018). Organotin exposure and vertebrate reproduction: a review. Frontiers in Endocrinology 9, 64.
Organotin exposure and vertebrate reproduction: a review.Crossref | GoogleScholarGoogle Scholar | 29545775PubMed |

Donkin, I, and Barrès, R (2018). Sperm epigenetics and influence of environmental factors. Molecular Metabolism 14, 1–11.
Sperm epigenetics and influence of environmental factors.Crossref | GoogleScholarGoogle Scholar | 29525406PubMed |

Ferramosca, A, Provenzano, SP, Coppola, L, and Zara, V (2012). Mitochondrial respiratory efficiency is positively correlated with human sperm motility. Urology 79, 809–814.
Mitochondrial respiratory efficiency is positively correlated with human sperm motility.Crossref | GoogleScholarGoogle Scholar | 22381250PubMed |

Giraud-Billoud, M, Vega, IA, Wuilloud, RG, Clément, ME, and Castro-Vazquez, A (2013). Imposex and novel mechanisms of reproductive failure induced by tributyltin (TBT) in the freshwater snail Pomacea canaliculata. Environmental Toxicology and Chemistry 32, 2365–2371.
Imposex and novel mechanisms of reproductive failure induced by tributyltin (TBT) in the freshwater snail Pomacea canaliculata.Crossref | GoogleScholarGoogle Scholar | 23775621PubMed |

Hiromori, Y, Yui, H, Nishikawa, J-i, Nagase, H, and Nakanishi, T (2016). Organotin compounds cause structure-dependent induction of progesterone in human choriocarcinoma Jar cells. The Journal of Steroid Biochemistry and Molecular Biology 155, 190–198.
Organotin compounds cause structure-dependent induction of progesterone in human choriocarcinoma Jar cells.Crossref | GoogleScholarGoogle Scholar | 25465476PubMed |

Huang, C-F, Yang, C-Y, Tsai, J-R, Wu, C-T, Liu, S-H, and Lan, K-C (2018). Low-dose tributyltin exposure induces an oxidative stress-triggered JNK-related pancreatic β-cell apoptosis and a reversible hypoinsulinemic hyperglycemia in mice. Scientific Reports 8, 5734.
Low-dose tributyltin exposure induces an oxidative stress-triggered JNK-related pancreatic β-cell apoptosis and a reversible hypoinsulinemic hyperglycemia in mice.Crossref | GoogleScholarGoogle Scholar | 29636531PubMed |

Ichihara, G, Iida, M, Watanabe, E, Fujie, T, Kaji, T, Lee, E, and Kim, Y (2019). Urinary trimethyl tin reflects blood trimethyl tin in workers recycling organotins. Journal of Occupational Health 61, 257–260.
Urinary trimethyl tin reflects blood trimethyl tin in workers recycling organotins.Crossref | GoogleScholarGoogle Scholar | 30924213PubMed |

Kanimozhi, V, Palanivel, K, Kadalmani, B, Krikun, G, and Taylor, HS (2014). Apolipoprotein E induction in syrian hamster testis following tributyltin exposure: a potential mechanism of male infertility. Reproductive Sciences 21, 1006–1014.
Apolipoprotein E induction in syrian hamster testis following tributyltin exposure: a potential mechanism of male infertility.Crossref | GoogleScholarGoogle Scholar | 24516040PubMed |

Kumar, N, and Singh, AK (2015). Trends of male factor infertility, an important cause of infertility: a review of literature. Journal of Human Reproductive Sciences 8, 191–196.
Trends of male factor infertility, an important cause of infertility: a review of literature.Crossref | GoogleScholarGoogle Scholar | 26752853PubMed |

Levine, KE, Young, DJ, Afton, SE, Harrington, JM, Essader, AS, Weber, FX, Fernando, RA, Thayer, K, Hatch, EE, Robinson, VG, and Waidyanatha, S (2015). Development, validation, and application of an ultra-performance liquid chromatography–sector field inductively coupled plasma mass spectrometry method for simultaneous determination of six organotin compounds in human serum. Talanta 140, 115–121.
Development, validation, and application of an ultra-performance liquid chromatography–sector field inductively coupled plasma mass spectrometry method for simultaneous determination of six organotin compounds in human serum.Crossref | GoogleScholarGoogle Scholar | 26048832PubMed |

Losano, JDA, Angrimani, DSR, Dalmazzo, A, Rui, BR, Brito, MM, Mendes, CM, Kawai, GKV, Vannucchi, CI, Assumpção, MEOA, Barnabe, VH, and Nichi, M (2017). Effect of mitochondrial uncoupling and glycolysis inhibition on ram sperm functionality. Reproduction in Domestic Animals 52, 289–297.
Effect of mitochondrial uncoupling and glycolysis inhibition on ram sperm functionality.Crossref | GoogleScholarGoogle Scholar | 28058736PubMed |

Mandrile, L, Vona, M, Giovannozzi, AM, Salafranca, J, Martra, G, and Rossi, AM (2020). Migration study of organotin compounds from food packaging by surface-enhanced Raman scattering. Talanta 220, 121408.
Migration study of organotin compounds from food packaging by surface-enhanced Raman scattering.Crossref | GoogleScholarGoogle Scholar | 32928424PubMed |

McAllister, BG, and Kime, DE (2003). Early life exposure to environmental levels of the aromatase inhibitor tributyltin causes masculinisation and irreversible sperm damage in zebrafish (Danio rerio). Aquatic Toxicology 65, 309–316.
Early life exposure to environmental levels of the aromatase inhibitor tributyltin causes masculinisation and irreversible sperm damage in zebrafish (Danio rerio).Crossref | GoogleScholarGoogle Scholar | 13678849PubMed |

Mello, MSC, Delgado, IF, Favareto, APA, Lopes, CMT, Batista, MM, Kempinas, WD-G, and Paumgartten, FJR (2015). Sexual maturation and fertility of mice exposed to triphenyltin during prepubertal and pubertal periods. Toxicology Reports 2, 405–414.
Sexual maturation and fertility of mice exposed to triphenyltin during prepubertal and pubertal periods.Crossref | GoogleScholarGoogle Scholar | 28962375PubMed |

Midic, U, Goheen, B, Vincent, KA, VandeVoort, CA, and Latham, KE (2018). Changes in gene expression following long-term in vitro exposure of Macaca mulatta trophoblast stem cells to biologically relevant levels of endocrine disruptors. Reproductive Toxicology 77, 154–165.
Changes in gene expression following long-term in vitro exposure of Macaca mulatta trophoblast stem cells to biologically relevant levels of endocrine disruptors.Crossref | GoogleScholarGoogle Scholar | 29505797PubMed |

Miller, DJ (2015). Regulation of sperm function by oviduct fluid and the epithelium: insight into the role of glycans. Reproduction in Domestic Animals 50, 31–39.
Regulation of sperm function by oviduct fluid and the epithelium: insight into the role of glycans.Crossref | GoogleScholarGoogle Scholar | 26174917PubMed |

Mitra, S, Srivastava, A, and Khandelwal, S (2017). Long term impact of the endocrine disruptor tributyltin on male fertility following a single acute exposure. Environmental Toxicology 32, 2295–2304.
Long term impact of the endocrine disruptor tributyltin on male fertility following a single acute exposure.Crossref | GoogleScholarGoogle Scholar | 28707438PubMed |

Nakatsu, Y, Kotake, Y, and Ohta, S (2007). Concentration dependence of the mechanisms of tributyltin-induced apoptosis. Toxicological Sciences 97, 438–447.
Concentration dependence of the mechanisms of tributyltin-induced apoptosis.Crossref | GoogleScholarGoogle Scholar | 17341481PubMed |

Novotny, L, Sharaf, L, Abdel-Hamid, ME, and Brtko, J (2018). Stability studies of endocrine disrupting tributyltin and triphenyltin compounds in an artificial sea water model. General Physiology and Biophysics 37, 93–99.
Stability studies of endocrine disrupting tributyltin and triphenyltin compounds in an artificial sea water model.Crossref | GoogleScholarGoogle Scholar | 29424354PubMed |

Pereira, CLV, Ximenes, CF, Merlo, E, Sciortino, AS, Monteiro, JS, Moreira, A, Jacobsen, BB, Graceli, JB, Ginsburg, KS, Ribeiro Junior, RF, Bers, DM, and Stefanon, I (2019). Cardiotoxicity of environmental contaminant tributyltin involves myocyte oxidative stress and abnormal Ca2+ handling. Environmental Pollution 247, 371–382.
Cardiotoxicity of environmental contaminant tributyltin involves myocyte oxidative stress and abnormal Ca2+ handling.Crossref | GoogleScholarGoogle Scholar | 30690233PubMed |

Podratz, PL, Merlo, E, de Araújo, JFP, Ayub, JGM, Pereira, AFZ, Freitas-Lima, LC, da Costa, MB, Miranda-Alves, L, Cassa, SGS, Carneiro, MTWD, Fillmann, G, and Graceli, JB (2020). Disruption of fertility, placenta, pregnancy outcome, and multigenerational inheritance of hepatic steatosis by organotin exposure from contaminated seafood in rats. Science of the Total Environment 723, 138000.
Disruption of fertility, placenta, pregnancy outcome, and multigenerational inheritance of hepatic steatosis by organotin exposure from contaminated seafood in rats.Crossref | GoogleScholarGoogle Scholar | 32213410PubMed |

Qian, B, He, Y, Zhao, J, Peng, L, and Han, B (2021). Simultaneous determination of five organotins in tropical fruits using modified QuEChERS combined with ultra-high performance liquid chromatography–tandem mass spectrometry. Journal of Chromatographic Science 59, 269–279.
Simultaneous determination of five organotins in tropical fruits using modified QuEChERS combined with ultra-high performance liquid chromatography–tandem mass spectrometry.Crossref | GoogleScholarGoogle Scholar | 33257935PubMed |

Rantakokko, P, Main, KM, Wohlfart-Veje, C, Kiviranta, H, Airaksinen, R, Vartiainen, T, Skakkebaek, NE, Toppari, J, and Virtanen, HE (2013). Association of placenta organotin concentrations with congenital cryptorchidism and reproductive hormone levels in 280 newborn boys from Denmark and Finland. Human Reproduction 28, 1647–1660.
Association of placenta organotin concentrations with congenital cryptorchidism and reproductive hormone levels in 280 newborn boys from Denmark and Finland.Crossref | GoogleScholarGoogle Scholar | 23520400PubMed |

Santos-Silva, AP, Andrade, MN, Pereira-Rodrigues, P, Paiva-Melo, FD, Soares, P, Graceli, JB, Dias, GRM, Ferreira, ACF, de Carvalho, DP, and Miranda-Alves, L (2018). Frontiers in endocrine disruption: impacts of organotin on the hypothalamus-pituitary-thyroid axis. Molecular and Cellular Endocrinology 460, 246–257.
Frontiers in endocrine disruption: impacts of organotin on the hypothalamus-pituitary-thyroid axis.Crossref | GoogleScholarGoogle Scholar | 28774778PubMed |

Sarmento, IV, Merlo, E, Meyrelles, SS, Vasquez, EC, Warner, GR, Gonsioroski, A, De La Torre, K, Meling, DD, Flaws, JA, and Graceli, JB (2020). Subchronic and low dose of tributyltin exposure leads to reduced ovarian reserve, reduced uterine gland number, and other reproductive irregularities in female mice. Toxicological Sciences 176, 74–85.
Subchronic and low dose of tributyltin exposure leads to reduced ovarian reserve, reduced uterine gland number, and other reproductive irregularities in female mice.Crossref | GoogleScholarGoogle Scholar | 32239163PubMed |

Sharma, N, and Kumar, A (2014). Mechanism of immunotoxicological effects of tributyltin chloride on murine thymocytes. Cell Biology and Toxicology 30, 101–112.
Mechanism of immunotoxicological effects of tributyltin chloride on murine thymocytes.Crossref | GoogleScholarGoogle Scholar | 24573671PubMed |

Smarr, MM, Kannan, K, Sun, L, Honda, M, Wang, W, Karthikraj, R, Chen, Z, Weck, J, and Buck Louis, GM (2018). Preconception seminal plasma concentrations of endocrine disrupting chemicals in relation to semen quality parameters among male partners planning for pregnancy. Environmental Research 167, 78–86.
Preconception seminal plasma concentrations of endocrine disrupting chemicals in relation to semen quality parameters among male partners planning for pregnancy.Crossref | GoogleScholarGoogle Scholar | 30014899PubMed |

Staff FB (2019) China: record high seafood imports in 2018. UFA Service, Global Agricultural Information Network, pp. 1–37.

Suarez, SS (2008). Regulation of sperm storage and movement in the mammalian oviduct. The International Journal of Developmental Biology 52, 455–462.
Regulation of sperm storage and movement in the mammalian oviduct.Crossref | GoogleScholarGoogle Scholar | 18649258PubMed |

Trebichalská, Z, and Holubcová, Z (2020). Perfect date—the review of current research into molecular bases of mammalian fertilization. Journal of Assisted Reproduction and Genetics 37, 243–256.
Perfect date—the review of current research into molecular bases of mammalian fertilization.Crossref | GoogleScholarGoogle Scholar | 31909446PubMed |

Vertika, S, Singh, KK, and Rajender, S (2020). Mitochondria, spermatogenesis, and male infertility – an update. Mitochondrion 54, 26–40.
Mitochondria, spermatogenesis, and male infertility – an update.Crossref | GoogleScholarGoogle Scholar | 32534048PubMed |

Whalen, MM, Loganathan, BG, and Kannan, K (1999). Immunotoxicity of environmentally relevant concentrations of butyltins on human natural killer cells in vitro. Environmental Research 81, 108–116.
Immunotoxicity of environmentally relevant concentrations of butyltins on human natural killer cells in vitro.Crossref | GoogleScholarGoogle Scholar | 10433842PubMed |

Yanik, SC, Baker, AH, Mann, KK, and Schlezinger, JJ (2011). Organotins are potent activators of PPARγ and adipocyte differentiation in bone marrow multipotent mesenchymal stromal cells. Toxicological Sciences 122, 476–488.
Organotins are potent activators of PPARγ and adipocyte differentiation in bone marrow multipotent mesenchymal stromal cells.Crossref | GoogleScholarGoogle Scholar | 21622945PubMed |

Zhang, K, Rajput, SK, Lee, K-B, Wang, D, Huang, J, Folger, JK, Knott, JG, Zhang, J, and Smith, GW (2015). Evidence supporting a role for SMAD2/3 in bovine early embryonic development: potential implications for embryotropic actions of follistatin. Biology of Reproduction 93, 86.
Evidence supporting a role for SMAD2/3 in bovine early embryonic development: potential implications for embryotropic actions of follistatin.Crossref | GoogleScholarGoogle Scholar | 26289443PubMed |