Effect of increased testicular temperature on seminal plasma proteome of the ram

Rocha, David R. da; Martins, Jorge André Matias; Tilburg, Maurício Fraga van; Oliveira, Rodrigo Vasconcelos de; Moreno, Frederico Bruno Mendes Batista; Monteiro-Moreira, Ana Cristina de Oliveira; Moreira, Renato A.; Araújo, Aírton Alencar de; Moura, Arlindo A.

doi:10.1016/j.theriogenology.2015.07.008

Cited by 40 publications

(48 citation statements)

References 65 publications

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“…Similar changes occurred at corresponding times in previous studies that involved increased testicular temperatures in bulls and rams (Howarth 1969;Meyerhoeffer et al 1985;Saab et al 2011;Rocha et al 2015;Hamilton et al 2016) with some apparent differences in the magnitude of changes and the interval from the thermal insult to recovery, attributed to the degree and duration of testicular heating and perhaps species-specific characteristics (Skinner and Louw 1966;Rathore 1970;Brito et al 2004;Nichi et al 2006). Furthermore, in this study, sperm damage occurred during the final stages of spermatogenic development in the testis (Howarth 1969;Cardoso and Queiroz 1988;Senger 2003).…”

Section: Discussionsupporting

confidence: 87%

“…Furthermore, an increase in reactive oxygen species (ROS) and an impact on sperm mitochondria was observed after long term exposure to increased intra-testicular temperature (approximately 33.5 °C), but no observation on the O 2 availability was taken (Hamilton et al 2016). Important modifications of the proteomic profile of seminal plasma were related to semen quality parameters after testicular heat stress in rams (Rocha et al 2015), indicating another potential mechanism for the observed damage that is not necessarily caused by hypoxia.…”

Section: Discussionmentioning

confidence: 97%

See 1 more Smart Citation

Hyperthermia and not hypoxia may reduce sperm motility and morphology following testicular hyperthermia

Kastelic¹,

Wilde²,

Rizzoto³

et al. 2017

Vet. Med. - Czech

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ABSTRACT:The mammalian testis typically operates on the brink of hypoxia; the long-standing dogma is that increased testicular temperature increases metabolism, but blood flow is unaffected and the resulting hypoxia reduces sperm motility and morphology. In rats and mice, oxygen (O 2 ) content of inspired air affected O 2 content of testes, enabling the latter to range from approximately 50 to more than 200% of physiologic concentrations. A ram model was used to test the hypotheses that hypoxia would disrupt sperm motility and morphology and that hyperoxia would prevent hyperthermia-induced reductions in sperm motility and morphology. Eighteen Canadian Arcott rams (approximately 10 months old) were used in a 2 × 3 factorial, with factors being scrotal insulation (insulated or not insulated) and O 2 concentrations in inspired air (14, 21 or 85%). Six rams, three with and three without scrotal insulation, were placed in each of three enclosed areas for 30 h to expose them to their respective oxygen concentrations, with scrotal insulation removed at the end of the exposure. Semen was collected by electro-ejaculation twice before insulation, bi-weekly for four weeks starting one week after exposures, and then once weekly for two weeks. There were effects of insulation, time and an insulation × time interaction for motile sperm and sperm that had normal morphology or head or midpiece defects (P < 0.01 for each). Sperm motility and morphology exhibited alterations between approximately two and five weeks after insulation, with mean progressively motile and morphologically normal sperm decreasing from approximately 55 to 35% and from 80 to 30%, respectively, and with head and midpiece defects increasing from approximately 3 to 50% and from 10 to 20% (P < 0.05 for each). The hypotheses that hypoxia would disrupt sperm quality and production, whereas hyperoxia would prevent hyperthermia-induced reductions in sperm quality and production, were not supported. This is apparently the first report that heat-stress induced damage to sperm was due to increased temperature per se and not testicular hypoxia, calling into question a long-standing paradigm.

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Section: Discussionsupporting

confidence: 87%

Section: Discussionmentioning

confidence: 97%

Hyperthermia and not hypoxia may reduce sperm motility and morphology following testicular hyperthermia

Kastelic¹,

Wilde²,

Rizzoto³

et al. 2017

Vet. Med. - Czech

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show abstract

“…This technique presents two logistical problem in the dependence on a nearby AI centre, the preparation of doses on the day of insemination and the low performance of males (few doses/ejaculate). In ewes with induced oestrus, good results have been reported in Merino breeds with fresh semen ‐56.7%‐ (Fernandez‐Abella, Preve, & Villegas, ), ‐65%‐ (Fernandez et al., ) or chilled semen at 15°C in the Lacaune breed 66.7% (Rocha et al., ). Under these conditions and in Spanish breeds, fertility is highly variable—Aragonesa: 45% (Abecia et al., ), Churra: 31% (Anel et al., ), Assaf: 39% (Álvarez, Chamorro, et al., ; Álvarez, Tamayo‐Canul, et al.…”

Section: Cervical Insemination: a Classic To Improvementioning

confidence: 99%

Current challenges in sheep artificial insemination: A particular insight

Álvarez

Anel-López

Boixo

et al. 2019

Reprod Domestic Animals

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Ovine artificial insemination (OAI) is not commonly performed because of specific problems related to semen application techniques, leading to highly variable results.The ideal methodology (frozen-thawed semen/vaginal route) is unfeasible under field conditions due to the cervix morphology of the ewe, which prevents the process of intrauterine insemination necessary to obtain acceptable results. Currently, OAI commercial programmes use superficial cervical insemination, CAI (vaginal), with chilled semen (15°C) and intrauterine insemination, LAI (laparoscopic), with frozen-thawed semen. The ability to improve upon these contrasting techniques may be derived from examining certain poorly studied factors such as insemination time, productive state of females and alternatives of seminal preservation, some of which we reviewed in this work. This interim solution will remain in use until AI by the vaginal route with frozen-thawed semen is developed, but it poses new challenges in optimizing the freezing of the sperm and adapting the cervical (CAI) and/or transcervical intrauterine AI (TCAI). In this review, we address the current problems and evaluate their methodological (mechanical) and chemical (dilation) alternatives. Currently, TCAI is a methodologically complex technique with poor fertility results, so further studies are needed to improve the logistics of this procedure and the results of its application. K E Y W O R D SAI, cervix, cryopreservation, ovine, sperm, transcervical | 33 ALVAREZ Et AL.

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“…A modification of seminal fluid composition after heat stress during male development can occur and may be responsible for the modification of female sex allocation. For instance, heat stress on rams affects their seminal plasma proteome, concomitantly with variations in semen parameters (Rocha et al, 2015). Furthermore, the quantity of seminal fluid transmitted to females can vary with the Fig.…”

Section: Discussionmentioning

confidence: 99%

Sperm limitation affects sex allocation in a parasitoid wasp Nasonia vitripennis

et al. 2018

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Insect reproduction is influenced by various external factors including temperature, a well-studied constraint. We investigated to what extent different levels of sperm limitation of males exposed to different heat stresses (34 and 36 °C) affect females' offspring production and sex allocation in Nasonia vitripennis. In this haplodiploid parasitoid wasp attacking different species of pest flies, we investigated the effect of the quantity of sperm females received and stored in their spermatheca on their sperm use decisions, hence sex allocation, over successive ovipositions. In particular, we compared the sex allocation of females presenting three levels of sperm limitation (i.e., mated with control, 34 °C heat-stressed or 36 °C heat-stressed males) on each host they parasitized. To disentangle the potential reduction of sperm quality after a heat stress exposure from that of sperm quantity, we also explored the clutch size and sex ratio produced by females that were partially sperm limited after copulating with multiply mated males. Independently of their sperm numbers, all types of females produced a similar total number of offspring, but the more limited ones had fewer daughters. Sperm limitation further affected the distribution of daughters' production across time. In addition to constraints acting on female physiology, male fertility should therefore be considered in studies measuring reproductive outputs of insects submitted to heat stresses.

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Effect of increased testicular temperature on seminal plasma proteome of the ram

Cited by 40 publications

References 65 publications

Hyperthermia and not hypoxia may reduce sperm motility and morphology following testicular hyperthermia

Hyperthermia and not hypoxia may reduce sperm motility and morphology following testicular hyperthermia

Current challenges in sheep artificial insemination: A particular insight

Sperm limitation affects sex allocation in a parasitoid wasp Nasonia vitripennis

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