Opportunities involving microfluidics and 3D culture systems to the in vitro embryo production.

Traditional methods of gamete handling, fertilization, and embryo culture often face limitations in efficiency, consistency, and the ability to closely mimic in vivo conditions. This review explores the opportunities presented by microfluidic and 3D culture systems in overcoming these challenges and enhancing in vitro embryo production. We discuss the basic principles of microfluidics, emphasizing their inherent advantages such as precise control of fluid flow, reduced reagent consumption, and high-throughput capabilities. Furthermore, we delve into microfluidic devices designed for gamete manipulation, in vitro fertilization, and embryo culture, highlighting innovations such as droplet-based microfluidics and on-chip monitoring. Next, we explore the integration of 3D culture systems, including the use of biomimetic scaffolds and organ-on-a-chip platforms, with a particular focus on the oviduct-on-a-chip. Finally, we discuss the potential of these advanced systems to improve embryo production outcomes and advance our understanding of early embryo development. By leveraging the unique capabilities of microfluidics and 3D culture systems, we foresee significant advancements in the efficiency, effectiveness, and clinical success of in vitro embryo production.

Investigating media that support red wolf (Canis rufus) sperm viability and capacitation in vitro.

The red wolf is a critically endangered canid, with ~250 and ~20 individuals in the ex situ and reintroduced wild populations, respectively. Assisted reproductive technologies such as sperm cryopreservation and in vitro fertilization therefore represent critically-needed tools to manage these populations. However, the motility of post-thaw red wolf sperm rapidly declines during in vitro incubation, hindering the ability to develop these technologies. In this study, we evaluated the influence of several culture media (a modified canine capacitation medium (mCCM), a modified North Carolina State University-23 medium (mNCSU-23), a synthetic oviductal fluid (SOF), a fertilization Tyrode's medium base or Fert-TALP (FERT), and a TRIS-based buffer (TRIS)) on the survival and capacitation of red wolf sperm during extended (18 h) incubation at 38.5°C and 5% CO2. Red wolf sperm motility averaged (±s.e.m.) 73.8 ± 7.1% at the time of collection, and was better maintained over 4 h incubation in mCCM (55.0 ± 9.8%) and mNCSU-23 (54.7 ± 10.4), compared to mSOF (43.8 ± 8.3%), FERT (30 ± 10.5), and TRIS (16.4 ± 4.1%) solutions. Patterns of tyrosine phosphorylation signal, as assessed via immunocytochemistry, indicated induction of capacitation between 2 and 4 h in vitro culture. Tyrosine phosphorylation signal was particularly robust in mCCM and mNCSU-23 incubated sperm, although significant acrosome exocytosis was not observed in response to progesterone supplementation after 3 h incubation in any of the media. In sum, results indicate mCCM and mNCSU-23 are promising base media for the in vitro incubation and capacitation of red wolf sperm, for assisted reproduction applications. LAY SUMMARY: Development of assisted reproductive technologies such as in vitro fertilization and artificial insemination is of high importance to the genetic management of critically endangered species such as the red wolf (Canis rufus). However, these technologies require the ability to maintain sperm viability and function during extended incubation, which has not been successful for the red wolf thus far. In this study, various culture media developed for sperm/egg/embryo culture in large mammalian species were evaluated for their ability to maintain red wolf sperm motility under physiological incubation conditions. Media and conditions previously utilized for domestic dog sperm were found to best support sperm incubation and capacitation (process of becoming competent to fertilize an egg) in the red wolf, representing a key step for future development of assisted reproductive technologies for the species.

Gene expression profile of Protamines and Transition Nuclear Proteins in bovine testis / Expressão gênica de protaminas e proteínas nucleares de transição em testículos bovinos

Protamines (PRM) are the major DNA-binding proteins in the sperms nucleus and can pack the DNA into than 5% of the volume of a somatic cell nucleus. It is already know that bulls only have the PRM1 protein on mature spermatozoa while most mammals also have the PRM2. Transition nuclear proteins (Tnps) and PRMs are fundamental to DNA integrity. It has already been reported the influence of PRM on chromatin structures, generating low fertility. However, molecular mechanisms underlying these effects are not known. The relative expression of PRM1, PRM2, PRM3, Tnp1 and Tnp2 was determined by real time RT-PCR, using bovine specific primers and β-actin as endogenous control. Quantification of mRNA relative expression showed a higher expression of PRM1 compared to the other genes. The PRM3 mRNA had the lowest relative expression. A significant (p < 0.05) and positive correlation was found between PRM1 and PRM2 (r = 0.518), PRM2 and Tnp1 (r = 0.750), PRM2 and Tnp2 (r = 0.706), PRM3 and Tnp1 (r = 0.542), PRM3 and Tnp2 (r = 0.731) and between Tnp1 and Tnp2 (r = 0.820). Since most of the knowledge about protamine 2 in bovine is based on a work from 1990 and according to new studies we know that PRM1 and PRM2 are important to bull fertility, more research is needed to elucidate the real function of protamines on bovines.

Protaminas (PRM) são as principais proteinas ligantes do DNA espermático e podem compactar o núcleo do espermatozóides em menos de 5% do volume de uma célula somática. Ká se sabe que o touro produz apenas a PRM1 em espermatozoide maduro, enquanto a maioria dos mamíferos também produz a PRM2. As proteínas nucleares de transição (Tnps) e as PRMs são fundamentais para a integridade do DNA. Já foi descrita a influência das protaminas na estrutura da cromatina e a associação destas com a fertilidade. Entretanto, os mecanismos moleculares que geram mudanças na cromatina espermática são desconhecidos. A expressão relativa da PRM1, PRM2, Tnp1 e Tnp2 foi determinada para dez testículos de touros oriundos de matadouros comerciais, utilizando a técnica de RT-PCR em tempo real, com primers específicos para bovinos e a B-actina como controle endogeno. Ao quantificar a expressão relativa do RNAm, detectou-se alta expressão relativa da PRM1, em comparação aos outros genes. A expressão relativa da PRM3 foi a menor de todos os genes. Foram encontradas correlações positivas e significantes (p < 0,05) entre PRM1 e PRM2 (r = 0,518), PRM2 e Tnp1 (r = 0,750), PRM2 e Tnp2 (r = 0,706), PRM3 e Tnp1 (r = 0,542), PRM3 e Tnp2 (r = 0,731) e entre Tnp1 e Tnp2 (r = 0,820). Visto que a maioria dos conhecimentos sobre a PRM2 estão baseados em um trabalho de 1990 e, de acordo com recentes estudos se sabe que a PRM1 e a PRM2 são importantes para a fertilidade do touro, mais estudos são necessários para determinar a real função das protaminas em touros.