Adrián Santos-Ledo scite author profile

During skeletal morphogenesis diverse mechanisms are used to support bone formation. This can be seen in the bones that require a cartilage template for their development. In mammals the cartilage template is removed, but in zebrafish the cartilage template persists and the bone mineralizes around the cartilage scaffold. Remodeling of unmineralized cartilage occurs via planar cell polarity (PCP) mediated cell rearrangements that contribute to lengthening of elements; however, the mechanisms that maintain the chondrocyte template that supports perichondral ossification remain unclear. We report double mutants disrupting two zebrafish kinesin-I genes (hereafter kif5Blof) that we generated using CRISPR/Cas9 mutagenesis. We show that zygotic Kif5Bs have a conserved function in maintaining muscle integrity, and are required for cartilage remodeling and maintenance during craniofacial morphogenesis by a PCP-distinct mechanism. Further, kif5Blof does not activate ER stress response genes, but instead disrupts lysosomal function, matrix secretion, and causes deregulated autophagic markers and eventual chondrocyte apoptosis. Ultrastructural and transplantation analysis reveal neighboring cells engulfing extruded kif5Blof chondrocytes. Initial cartilage specification is intact; however, during remodeling, kif5Blof chondrocytes die and the cartilage matrix devoid of hypertrophic chondrocytes remains and impedes normal ossification. Chimeric and mosaic analyses indicate that Kif5B functions cell-autonomously in secretion, nuclear position, cell elongation and maintenance of hypertrophic chondrocytes. Interestingly, large groups of wild-type cells can support elongation of neighboring mutant cells. Finally, mosaic expression of kif5Ba, but not kif5Aa in cartilage rescues the chondrocyte phenotype, further supporting a specific requirement for Kif5B. Cumulatively, we show essential Kif5B functions in promoting cartilage remodeling and chondrocyte maintenance during zebrafish craniofacial morphogenesis.

show abstract

Cytoarchitectonic and neurochemical differentiation of the visual system in ethanol-induced cyclopic zebrafish larvae

Santos-Ledo

Arenzana

Porteros

et al. 2011

Neurotoxicology and Teratology

View full text Add to dashboard Cite

Melatonin Ameliorates Autophagy Impairment in a Metabolic Syndrome Model

et al. 2021

View full text Add to dashboard Cite

Metabolic syndrome is a global health problem in adults and its prevalence among children and adolescents is rising. It is strongly linked to a lifestyle with high-caloric food, which causes obesity and lipid metabolism anomalies. Molecular damage due to excessive oxidative stress plays a major role during the development of metabolic syndrome complications. Among the different hormones, melatonin presents strong antioxidant properties, and it is used to treat metabolic diseases. However, there is not a consensus about its use as a metabolic syndrome treatment. The aim of this study was to identify melatonin effects in a metabolic syndrome model. Golden hamsters were fed with 60% fructose-enriched food to induce metabolic syndrome and were compared to hamsters fed with regular chow diet. Both groups were also treated with melatonin. Fructose-fed hamsters showed altered blood lipid levels (increased cholesterol and LDL) and phenotypes restored with the melatonin treatment. The Harderian gland (HG), which is an ideal model to study autophagy modulation through oxidative stress, was the organ that was most affected by a fructose diet. Redox balance was altered in fructose-fed HG, inducing autophagic activation. However, since LC3-II was not increased, the impairment must be in the last steps of autophagy. Lipophagy HG markers were also disturbed, contributing to the dyslipidemia. Melatonin treatment improved possible oxidative homeostasis through autophagic induction. All these results point to melatonin as a possible treatment of the metabolic syndrome.

show abstract

Alternative splicing of jnk1a in zebrafish determines first heart field ventricular cardiomyocyte numbers through modulation of hand2 expression

et al. 2020

View full text Add to dashboard Cite

The planar cell polarity pathway is required for heart development and whilst the functions of most pathway members are known, the roles of the jnk genes in cardiac morphogenesis remain unknown as mouse mutants exhibit functional redundancy, with early embryonic lethality of compound mutants. In this study zebrafish were used to overcome early embryonic lethality in mouse models and establish the requirement for Jnk in heart development. Whole mount in-situ hybridisation and RT-PCR demonstrated that evolutionarily conserved alternative spliced jnk1a and jnk1b transcripts were expressed in the early developing heart. Maternal zygotic null mutant zebrafish lines for jnk1a and jnk1b, generated using CRISPR-Cas9, revealed a requirement for jnk1a in formation of the proximal, first heart field (FHF)derived portion of the cardiac ventricular chamber. Rescue of the jnk1a mutant cardiac phenotype was only possible by injection of the jnk1a EX7 Lg alternatively spliced transcript. Analysis of mutants indicated that there was a reduction in the size of the hand2 expression field in jnk1a mutants which led to a specific reduction in FHF ventricular cardiomyocytes within the anterior lateral plate mesoderm. Moreover, the jnk1a mutant ventricular defect could be rescued by injection of hand2 mRNA. This study reveals a novel and critical requirement for Jnk1 in heart development and highlights the importance of alternative splicing in vertebrate cardiac morphogenesis. Genetic pathways functioning through jnk1 may be important in human heart malformations with left ventricular hypoplasia.

show abstract

Comparative gene expression analysis of the fmnl family of formins during zebrafish development and implications for tissue specific functions

Santos-Ledo¹,

Jenny²,

Marlow³

2013

Gene Expression Patterns

View full text Add to dashboard Cite

Fmlns belong to the Formin family, catalysts of linear Actin polymerization with mostly unknown roles in vivo. In cell culture Fmnls are involved in cell migration and adhesion and the formation of different types of protrusions including filopodia and blebs, suggesting important roles during development. Moreover, Fmnls can act downstream of Rac and Cdc42, mediators of cytoskeletal changes as targets of important pathways required for shaping tissues. The zebrafish genome encodes five Fmnls. Here we report their tissue specific expression patterns during early development and pharyngula stages. The fmnls show overlapping and distinct expression patterns, which suggest that they could regulate similar processes during development, but may also have independent functions. In particular, we find a strong maternal contribution of all fmnls, but distinct expression patterns in the developing brain eye, ear, heart and vascular system.

show abstract

A Mammalian Target of Rapamycin‐Perilipin 3 (mTORC1‐Plin3) Pathway is essential to Activate Lipophagy and Protects Against Hepatosteatosis

et al. 2021

View full text Add to dashboard Cite

Reporting of In Vivo Experiments AST Aspartate aminotransferase αSMA α-smooth muscle actin ATG16L Autophagy Related 16L ATG7 Autophagy Related 7 AAV Adeno-associated virus BODIPY 4,4-difluoro-4-bora-3a,4a-diaza-s-indacene BNIP BCL2 interacting protein 3 BNIP3L/NIX BCL2 interacting protein 3 like BBVA Banco Bilbao Vizcaya Argentaria°C Celsius Degrees CCPG1 Cell-Cycle Progression Gene 1 CMA Chaperon Mediated Autophagy Co-IP Co-Immuno Precipitation Col1a1 Type IA1 collagen CPT1 Carnitine PalmitoylTransferase I Ctrl Control Financial support: This work was supported by C0120R3166, C0245R4032 and BH182173 from Newcastle University. MG-M is a Sara Borrell Postdoctoral fellow (CD18/00203

show abstract

Ethanol alters gene expression and cell organization during optic vesicle evagination

et al. 2013

View full text Add to dashboard Cite

show abstract

12 3

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.