Organogenesis of the Musculoskeletal System in Horse Embryos and Early Fetuses

Barreto, Rodrigo da Silva Nunes; Rodrigues, Márcio Nogueira; Carvalho, R. R. de; Silva, Fernanda Menezes de Oliveira e; Rigoglio, Nathia Nathaly; Jacob, Jerry; Gastal, E.L.; Miglino, María Angélica

doi:10.1002/ar.23339

Cited by 8 publications

(12 citation statements)

References 26 publications

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“…Recently, the effective determinant roles of HOX9 paralogs have been defined in patterning anteroposterior axis of the forelimb [49]. The morphological variation associated with hind limb integumentary appendages in mammals results from adaptive development in evolution trend [50]. Considering our significant results in biological enrichment analysis, the GOs related to limb morphogenesis and development process are highlights of our findings.…”

Section: The Highest Log 2 (mentioning

confidence: 62%

Whole-Genome Signatures of Selection in Sport Horses Revealed Selection Footprints Related to Musculoskeletal System Development Processes

Ardestani

Aminafshar

Maryam

et al. 2019

Animals

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Selective breeding has led to gradual changes at the genome level of horses. Deciphering selective pressure patterns is progressive to understand how breeding strategies have shaped the sport horse genome; although, little is known about the genomic regions under selective pressures in sport horse breeds. The major goal of this study was to shed light on genomic regions and biological pathways under selective pressures in sport horses. In this study, whole-genome sequences of 16 modern sport and 35 non-sport horses were used to investigate the genomic selective signals of sport performance, by employing fixation index, nucleotide diversity, and Tajima’s D approaches. A total number of 49 shared genes were identified using these approaches. The functional enrichment analysis for candidate genes revealed novel significant biological processes related to musculoskeletal system development, such as limb development and morphogenesis, having been targeted by selection in sport breeds.

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Section: The Highest Log 2 (mentioning

confidence: 62%

Whole-Genome Signatures of Selection in Sport Horses Revealed Selection Footprints Related to Musculoskeletal System Development Processes

Ardestani

Aminafshar

Maryam

et al. 2019

Animals

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“…12,26 In mammals, including the horse, the NP is assumed to be formed by the notochord, which itself disappears during late embryogenesis. 5,54 However, the presence of cells with morphological characteristics of notochordal cells could not be confirmed during gestation or postnatally. This finding was substantiated by using immunohistochemistry for cytokeratin 18, a marker expressed by notochordal cells.…”

Section: Discussionmentioning

confidence: 95%

Intervertebral disc degeneration in warmblood horses: Histological and biochemical characterization

et al. 2022

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Gross morphology of healthy and degenerated intervertebral discs (IVDs) is largely similar in horses as in dogs and humans. For further comparison, the biochemical composition and the histological and biochemical changes with age and degeneration were analyzed in 41 warmblood horses. From 33 horses, 139 discs and 2 fetal vertebral columns were evaluated and scored histologically. From 13 horses, 73 IVDs were assessed for hydration, DNA, glycosaminoglycans, total collagen, hydroxyl-lysyl-pyridinoline, hydroxylysine, and advanced glycation end-product (AGE) content. From 7 horses, 20 discs were assessed for aggrecan, fibronectin, and collagen type 1 and 2 content. Histologically, tearing of the nucleus pulposus (NP) and cervical annulus fibrosus (AF), and total histological score (tearing and vascular proliferation of the AF, and chondroid metaplasia, chondrocyte-like cell proliferation, presence of notochordal cells, matrix staining, and tearing of the NP) correlated with gross degeneration. Notochordal cells were not seen in IVDs of horses. Age and gross degeneration were positively correlated with AGEs and a fibrotic phenotype, explaining gross degenerative changes. In contrast to dogs and humans, there was no consistent difference in glycosaminoglycan content and hydration between AF and NP, nor decrease of these variables with age or degeneration. Hydroxylysine decrease and collagen 1 and AGEs increase were most prominent in the NP, suggesting degeneration started in the AP. In caudal cervical NPs, AGE deposition was significantly increased in grossly normal IVDs and total collagen significantly increased with age, suggesting increased biomechanical stress and likelihood for spinal disease in this part of the vertebral column.

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“…The embryonic circulation is established around day 18 (Gaivão et al 2014), with the cardiac prominence first visible at day 19 and a primitive heartbeat detectable by ultrasonography around or shortly after that time (Franciolli et al 2011). By day 25, the embryonic skin begins to lose its transparency and limb buds are visible (Barreto et al 2016), the genital tubercle (primitive reproductive tract) can be distinguished, and the tail begins developing (Franciolli et al 2011). Hoof formation is evident by day 27 (Franciolli et al 2011), while the primitive skull (cartilaginous chondocranium) is first visualised at day 30, then calcifies into bone (osteocranium) by day 35 (Barreto et al 2016).…”

Section: Foetal Development and Growthmentioning

confidence: 99%

“…By day 25, the embryonic skin begins to lose its transparency and limb buds are visible (Barreto et al 2016), the genital tubercle (primitive reproductive tract) can be distinguished, and the tail begins developing (Franciolli et al 2011). Hoof formation is evident by day 27 (Franciolli et al 2011), while the primitive skull (cartilaginous chondocranium) is first visualised at day 30, then calcifies into bone (osteocranium) by day 35 (Barreto et al 2016). Over the period of 30-65 days post ovulation, the muscles of the fore and hind limbs develop through the differentiation of mesenchyme into muscle fibres (Barreto et al 2016).…”

Section: Foetal Development and Growthmentioning

confidence: 99%

Lethal variants of equine pregnancy: is it the placenta or foetus leading the conceptus in the wrong direction?

Shilton

Kahler²,

Roach³

et al. 2022

Reprod. Fertil. Dev.

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Embryonic and foetal loss remain one of the greatest challenges in equine reproductive health with 5-10% of established day 15 pregnancies and a further 5-10% of day 70 pregnancies failing to produce a viable foal. The underlying reason for these losses is variable but ultimately most cases will be attributed to pathologies of the environment of the developing embryo and later foetus, or a defect intrinsic to the embryo itself that leads to lethality at any stage of gestation right up to birth. Historically, much research has focused on the maternal endometrium, endocrine and immune responses in pregnancy and pregnancy loss, as well as infectious agents such as pathogens, and until recently very little was known about the both small and large genetic variants associated with reduced foetal viability in the horse. In this review, we first introduce key aspects of equine placental and foetal development. We then discuss incidence, risk factors and causes of pregnancy loss, with the latter focusing on genetic variants described to date that can impact equine foetal viability.

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Organogenesis of the Musculoskeletal System in Horse Embryos and Early Fetuses

Cited by 8 publications

References 26 publications

Whole-Genome Signatures of Selection in Sport Horses Revealed Selection Footprints Related to Musculoskeletal System Development Processes

Whole-Genome Signatures of Selection in Sport Horses Revealed Selection Footprints Related to Musculoskeletal System Development Processes

Intervertebral disc degeneration in warmblood horses: Histological and biochemical characterization

Lethal variants of equine pregnancy: is it the placenta or foetus leading the conceptus in the wrong direction?

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