Quantitative evaluation of human sperm viability using MTT assay: A laboratory study

Abstract Background 3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyl tetrazolium bromide (MTT) assay which evaluates cellular mitochondrial activity is widely used for the assessment of cell proliferation and viability. Objective This study was performed to assess human sperm viability using MTT assay. Materials and Methods In this laboratory study, human-ejaculated semen samples (n = 56 from different donors) were used. The sperm viability was determined using quantitative MTT assay and the sperm motility was assessed according to World Health Organization guidelines. Sperm viability and the correlation between sperm viability and motility were analyzed. Results Data revealed a marked positive correlation between MTT reduction rate and the percentage of viable spermatozoa. The Pearson's correlation coefficients also showed a significant correlation between sperm viability and motility. Conclusion MTT assay which is based on mitochondrial functionality is a reliable method for evaluating human sperm viability and could be used as a diagnostic test for predicting sperm fertilization ability in clinical settings.


Introduction
Most clinical laboratories and infertility centers often analyze the physical parameters of sperm, including the concentration, motility, and morphology in the semen, to report the sperm quality for predicting the sperm fertilization ability. However, around 15% of infertile men have a normal spermiogram (1). Therefore, this routine semen analysis may be deemed Thus, this colorimetric assay determines the mitochondrial activity as a marker for cell viability.
This assessment method was first introduced by Mosmann for the evaluation of lymphocytes viability and proliferation (4). This method has also been used for the quantitative estimation of the viability of bovine (5) and equine sperm (6). Although Nasr-Esfahani and co-workers (7) used MTT assay for the assessment of human spermatozoa viability, they stained spermatozoa only with MTT for selecting viable sperm from a sperm population in order to inject it into the egg cytoplasm. The functionality of sperm mitochondria is a critical factor that determines sperm capacitation, motility, and fertilization ability (8) and could be considered as a key parameter for estimating sperm viability. However, little attention has been paid to this parameter in clinical laboratories as it is not a common part of human semen analysis. Therefore, this study discusses the efficacy of MTT assay as a reliable, simple, and rapid method for evaluating human sperm viability. This assessment which is based on the evaluation of sperm mitochondrial functionality might be useful as a diagnostic test for predicting sperm fertilization ability in clinical settings.

Preparation of semen
In this laboratory study, human-ejaculated

Assessment of sperm viability
To evaluate sperm viability, MTT assay was performed according to a method described by To obtain the standard curve (Figure 1), the freeze-killed procedure was used as previously described (5). Accordingly, the sperm suspension

Ethical consideration
The experiments conducted in the current study were approved by the ethical committee at Arak University of Medical Sciences.

Statistical analysis
The results are expressed as Mean ± standard deviation (SD). One-way analysis of variance (ANOVA) followed by Tukeyʼ s test was used to analyze the result on sperm viability. Pearson's correlation coefficient was used to evaluate the correlation between the percentage of sperm viability and sperm motility. P < 0.05 was considered significant.

Results
Viable spermatozoa reduce MTT to MTTformazan by their active mitochondrial dehydrogenases, where formazan crystals as insoluble purple color are localized in the midpiece of sperm (Figure 2).
The quantitative MTT assay showed a correlation between MTT reduction rate and the percentage of sperm viability in sperm samples containing different ratios of live and dead spermatozoa. Sperm viability was significantly (p < 0.001) increased by decreasing amounts of dead spermatozoa (Table I).
The standard curve shows a positive linear correlation between MTT reduction rate as a predictor and sperm viability as response variable. Using the linear regression equation (Y = 239.4X-22.935), the percentage of sperm viability in 20 human semen samples was calculated (Table II). Moreover, this table shows sperm motility of the samples. The Pearson's correlation coefficient analysis (r = 0.767) revealed a highly significant (p = 0.001) correlation between the percentage of sperm viability and sperm motility. Table II. Sperm viability as measured by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay and sperm motility in 20 human semen samples

Discussion
In the present study, MTT assay was used to quantitatively assess human sperm viability. This assessment is widely used for estimating the viability and mitochondrial integrity in many cell types (10)(11)(12)(13) including the sperm cell of several species (5,6,14). Since impaired sperm mitochondrial activity negatively affects sperm viability, it might attribute to male infertility. Therefore, this evaluation could be useful as diagnostic test for predicting sperm fertilization ability. For sperm viability assessment, MTT assay was used. In this method, the yellow tetrazolium dye, MTT, is reduced by the active mitochondrial enzyme succinate-dehydrogenase into insoluble purple formazan that accumulates within metabolically active cells but not the dead cells (4). The presence of purple formazan crystals in the midpiece of sperm showed that active mitochondria in spermatozoa were able to convert MTT to MTT formazan indicating that sperm is a live cell. Therefore, in this test, MTT reduction rate directly corresponds with the number of viable cells and mitochondrial activity (4). Accordingly, our results showed a high correlation between MTT reduction rate and the percentage of viable spermatozoa as it increased with a decrease in the amount of dead spermatozoa. MTT assay determines sperm viability rapidly. We showed an optimal time for MTT reduction for human sperm. After 1 hr incubation of sperm suspension with MTT solution, purple formazan was successfully formed and could be quickly extracted by DMSO. Our result is, therefore, in agreement with Aziz's report (5), who showed that the optimal time for MTT reduction by bovine spermatozoa was 1 hr. This observation was expected because sperm with rich mitochondria is a highly active cell and can quickly convert MTT, which shows that the reduction of MTT by spermatozoa could be faster than other cells (4). Moreover, MTT assay has been used more frequently compared to other viability assays such as eosin-nigrosin (15), TB (3) or hypoosmotic swelling test (16), which assess plasma membrane integrity, but provide no information about mitochondrial activity or metabolic estate of sperm. Although this test is widely used to assess cell viability and proliferation (4), and to measure mitochondrial integrity, it should be born in mind that MTT reduction can also be a result of the activity of dehydrogenases outside the mitochondria (17). Nevertheless, MTT assay is still a convenient and inexpensive method for assessing cell viability in a variety of cells (10,13) and tissues (18). indicate its structural and functional quality to move toward an egg for successful fertilization" (19). Sperm motility could also be a predictor for sperm quality and fertilization ability (20). The viability of sperm samples obtained from 20 donors had a highly significant correlation with sperm motility. Since mitochondria are responsible for energy maintenance required for sperm motion, mitochondrial dysfunction may affect sperm motility leading to male infertility.
In conclusion, the present study introduces MTT assay as a quantitative assessment of human sperm viability and proposes this method as a diagnostic test for predicting sperm fertilization ability in clinical settings.