Flow cytometry for the assessment of animal sperm integrity and functionality: state of the art

Hossain, Sharoare; Johannisson, Anders; Wallgren, Margareta; Nagy, Szabolcs; Siqueira, Amanda Pimenta; Rodriguez‐Martinez, Heriberto

doi:10.1038/aja.2011.15

Cited by 142 publications

(130 citation statements)

References 176 publications

(180 reference statements)

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“…Moreover, mitochondria have an important role in the maintenance of Ca 2+ -homeostasis -the mitochondrial membrane depolarization causes decreased Ca 2+ influx [20]. This latter and the increase in intracellular Ca 2+ level are key components of fish sperm activation [15] and necessary for capacitation in mammalian spermatozoa [14].…”

Section: Discussionmentioning

confidence: 99%

Effects of high ambient temperature on fish sperm plasma membrane integrity and mitochondrial activity — A flow cytometric study

Nagy

Kakasi

Pál

et al. 2016

Acta Biologica Hungarica

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Local extreme climatic conditions occurring as a result of global climate change may interfere with the reproduction of animals. In the present study fish spermatozoa were incubated at different temperatures (20, 25, 30 and 40 °C) for 10 and 30 minutes, respectively and plasma membrane integrity and mitochondrial membrane potential changes were evaluated with flow cytometry using SYBR-14/PI and Mitotracker Deep Red FM fluorescent dyes. No significant differences were found in plasma membrane integrity at either incubation temperatures or time points. Mitotracker Deep Red FM histogram profiles indicating mitochondrial activity showed significant (p < 0.001) alterations in all cases of higher (25, 30 and 40 °C) temperature treatments as compared to the samples incubated at 20 °C. Our results indicate that fish spermatozoa exposed to high temperatures suffer sublethal damage that cannot be detected with conventional, vital staining techniques.

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Section: Discussionmentioning

confidence: 99%

Effects of high ambient temperature on fish sperm plasma membrane integrity and mitochondrial activity — A flow cytometric study

Nagy

Kakasi

Pál

et al. 2016

Acta Biologica Hungarica

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“…4 Moreover, the sperm membranes are an integral part of the acrosome reaction and are involved in the fertilizationrelated events, so deterioration in the structural and functional integrity of spermatozoa is an obvious sign of the ageing processes, as is evident after cryopreservation. 5 Assessment of the cryo-induced sperm ageing processes, using a combination of different fluorescent probes (lipophilic cationic JC-1 in combination with propidium iodide -PI, JC-1/PI; rhodamine 123, R123/PI; MitoTracker Green, MTG; SYBR-14/PI; carboxyfluorescein diacetate, CFDA/PI; Hoechst 33258, H258; fluorescein isothiocyanate (FITC)-labeled peanut agglutinin, FITC-PNA/PI; FITC-labeled Pisum sativum agglutinin, FITC-PSA/PI), has provided more detailed information on several sperm attributes that are required to identify individuals with poor and good semen freezability. 1,5 Furthermore, the ageing-associated decrease in post-thaw sperm viability is concomitant with an increase in lipid peroxidation measured by malondialdehyde (MDA) production, capacitation-like destabilization of sperm membranes (antibiotic chlortetracycline, CTC; Merocyanine 540, M540), apoptotic sperm cells (Annexin-V/PI; Yo-Pro-1/ PI; caspase activation) or sperm DNA fragmentation (Comet assay, sperm chromatin structure assay, SCSA; terminal deoxynucleotidyl transferase-mediated dUDP nick end labelling assay, TUNEL; sperm chromatin dispersion assay), which significantly compromises the fertilizing ability of frozen-thawed spermatozoa.…”

mentioning

confidence: 99%

“…4,5 Despite the effectiveness of these sperm assays, the underlying mechanisms involved in the cryo-induced ageing-dependent changes, within different compartments of the spermatozoon, are still poorly understood.…”

mentioning

confidence: 99%

“…1 A plethora of sperm markers have provided evidence of the ageingdependent effects on sperm cryo-survival. 5 Accordingly, molecular markers, used to detect the sperm ageing-dependent processes associated with the freezing-thawing procedure, have made possible a more widespread analysis of different sperm attributes that are considered as a prerequisite for successful fertilization. 6 Cryo-induced sperm ageing processes have been manifested in compromised sperm motility, mitochondrial membrane potential (MMP), plasma membrane integrity (PMI) and acrosome membrane integrity (AMI), which are the key determinants of semen quality.…”

mentioning

confidence: 99%

“…3 It is noteworthy that ageing-dependent processes in frozen-thawed semen occur in different sperm compartments, and are associated with membrane modifications of specific lipid-protein interactions, activation of an apoptosis-like mechanism and reduced genomic integrity, which consequently compromise sperm cryo-survival. 4,5 Moreover, ageing is a natural process occurring in sperm cells during semen preservation, and there is no single sperm test that can effectively predict the fertilizing capacity of semen following the different reproductive technologies. 6 Cryo-induced ageing-dependent processes in spermatozoa have marked effects on different sperm attributes, either directly or indirectly, resulting in impaired fertilizing ability of the post-thaw semen.…”

mentioning

confidence: 99%

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Assessment of Ageing-Dependent Effects on Sperm Functions following Semen Cryopreservation

Fraser¹

2017

Vet Med Open J

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There has been an increased improvement in the cryopreservation protocol of semen, which contributes to the preservation of genetic resources.1,2 Cryo-induced damage to spermatozoa is attributed to membrane deterioration caused mainly by the formation of intracellular ice and increased oxidative stress, resulting in a loss of the sperm fertilizing ability. 3 It is noteworthy that ageing-dependent processes in frozen-thawed semen occur in different sperm compartments, and are associated with membrane modifications of specific lipid-protein interactions, activation of an apoptosis-like mechanism and reduced genomic integrity, which consequently compromise sperm cryo-survival. 4,5 Moreover, ageing is a natural process occurring in sperm cells during semen preservation, and there is no single sperm test that can effectively predict the fertilizing capacity of semen following the different reproductive technologies. Cryo-induced ageing-dependent processes in spermatozoa have marked effects on different sperm attributes, either directly or indirectly, resulting in impaired fertilizing ability of the post-thaw semen.1 A plethora of sperm markers have provided evidence of the ageingdependent effects on sperm cryo-survival.5 Accordingly, molecular markers, used to detect the sperm ageing-dependent processes associated with the freezing-thawing procedure, have made possible a more widespread analysis of different sperm attributes that are considered as a prerequisite for successful fertilization.6 Cryo-induced sperm ageing processes have been manifested in compromised sperm motility, mitochondrial membrane potential (MMP), plasma membrane integrity (PMI) and acrosome membrane integrity (AMI), which are the key determinants of semen quality.1 Even though motility characteristics, analyzed by the computer-assisted semen analysis (CASA) system, reflect several essential aspects of the sperm metabolic activity, it is still unclear whether these variables are reliable to predict fertilization. 4 Moreover, the sperm membranes are an integral part of the acrosome reaction and are involved in the fertilizationrelated events, so deterioration in the structural and functional integrity of spermatozoa is an obvious sign of the ageing processes, as is evident after cryopreservation.5 Assessment of the cryo-induced sperm ageing processes, using a combination of different fluorescent probes (lipophilic cationic JC-1 in combination with propidium iodide -PI, JC-1/PI; rhodamine 123, R123/PI; MitoTracker Green, MTG; SYBR-14/PI; carboxyfluorescein diacetate, CFDA/PI; Hoechst 33258, H258; fluorescein isothiocyanate (FITC)-labeled peanut agglutinin, FITC-PNA/PI; FITC-labeled Pisum sativum agglutinin, FITC-PSA/PI), has provided more detailed information on several sperm attributes that are required to identify individuals with poor and good semen freezability.1,5 Furthermore, the ageing-associated decrease in post-thaw sperm viability is concomitant with an increase in lipid peroxidation measured by malondialdehyde (MDA) production, capacitat...

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Bovine Semen Quality Control in Artificial Insemination Centers

Vincent

Underwood

Dolbec

et al. 2014

Bovine Reproduction

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Quality control (QC) is a fundamental area of management for semen production centers (SPCs) supplying bovine semen to breeders and producers. Semen production centers are moving away from subjective semen assessment, that is largely uncorrelated to field fertility, to objective semen analyses that incorporate computer assisted sperm analysis (CASA) and flow cytometry. A multiparametric approach to semen analysis using a combination of CASA and flow cytometry can provide SPCs with the highest QC for all semen production. In this paper we review probes used for labelling spermatozoa for viability, acrosomal integrity, mitochondrial activity, DNA integrity and calcium release. Limitations of CASA and flow cytometry when analyzing spermatozoa, especially frozen-thawed samples, are discussed. Finally, we described how a multiparametric approach using CASA and flow cytometry could be applied in SPCs to establish QC of production before the release of the product in the field.

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Flow cytometry for the assessment of animal sperm integrity and functionality: state of the art

Cited by 142 publications

References 176 publications

Effects of high ambient temperature on fish sperm plasma membrane integrity and mitochondrial activity — A flow cytometric study

Effects of high ambient temperature on fish sperm plasma membrane integrity and mitochondrial activity — A flow cytometric study

Assessment of Ageing-Dependent Effects on Sperm Functions following Semen Cryopreservation

Bovine Semen Quality Control in Artificial Insemination Centers

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