A. López-Islas scite author profile

Circadian rhythms are the product of the interaction of molecular clocks and environmental signals, such as light-dark cycles and eating-fasting cycles. Several studies have demonstrated that the circadian rhythm of peripheral clocks, and behavioural and metabolic mediators are re-synchronized in rodents fed under metabolic challenges, such as hyper- or hypocaloric diets and subjected to time-restricted feeding protocols. Despite the metabolic challenge, these approaches improve the metabolic status, raising the enquiry whether removing progressively the hypocaloric challenge in a time-restricted feeding protocol leads to metabolic benefits by the synchronizing effect. To address this issue, we compared the effects of two time-restricted feeding protocols, one involved hypocaloric intake during the entire protocol (HCT) and the other implied a progressive intake accomplishing a normocaloric intake at the end of the protocol (NCT) on several behavioural, metabolic, and molecular rhythmic parameters. We observed that the food anticipatory activity (FAA) was driven and maintained in both HCT and NCT. Resynchronization of hepatic molecular clock, free fatty acids (FFAs), and FGF21 was elicited closely by HCT and NCT. We further observed that the fasting cycles involved in both protocols promoted ketone body production, preferentially beta-hydroxybutyrate in HCT, whereas acetoacetate was favoured in NCT before access to food. These findings demonstrate that time-restricted feeding does not require a sustained calorie restriction for promoting and maintaining the synchronization of the metabolic and behavioural circadian clock, and suggest that metabolic modulators, such as FFAs and FGF21, could contribute to FAA expression.

show abstract

Stability of aqueous formaldehyde under γ irradiation: prebiotic relevance

López-Islas

Colín-García

Negrón‐Mendoza

2018

International Journal of Astrobiology

View full text Add to dashboard Cite

Formaldehyde is a precursor of sugars, which are compounds essential in all forms of life and a necessary molecule for prebiotic processes. This work focuses on evaluating the stability of formaldehyde exposed to a high radiation field simulating prebiotic conditions on primitive Earth, such as the ocean or shallow waters. Formaldehyde may have been formed from reactions in the atmosphere and from rainout processes reached water bodies. In our experiments, we employed γ radiation and found that formaldehyde was labile towards radiation and decomposed even at low irradiation doses due to the fact that aldehyde/hydrate groups present in formaldehyde structure are very reactive under irradiation. However, after exposing this molecule to several doses of irradiation, we detected the formation of formic acid and glycolaldehyde – both of which are of prebiotic interest. We also observed formaldehyde regeneration by one of its radiolytic products: formic acid.

show abstract

Radiation-induced reactions in comet analogues

López-Islas

Negrón‐Mendoza

2022

International Journal of Astrobiology

View full text Add to dashboard Cite

Comets are a source of prebiotic molecules that likely enriched the early Earth during the Late Heavy Bombardment period. Laboratory experiments that replicate cometary conditions may facilitate understanding of the chemical reactions and supplement observational studies of these icy bodies. Prebiotic compounds, such as formic acid and formaldehyde, have been observed in comets. Furthermore, these compounds can easily be formed in experimental models using a variety of gas combinations and energy sources. We conducted experimental cometary simulations using radiation chemistry tools to obtain insight into the possible fate of formic acid and formaldehyde. The main results suggest a redundant system, signifying that the irradiation of formic acid forms formaldehyde molecules and vice versa. This phenomenon ensures the permanence of prebiotic molecules in high-radiation environments. Additionally, the potential role of forsterite and graphite was explored in cometary simulations. Our experimental results show the differential formation of aldehydes and other carbonyl-containing compounds dependent on the mineral phase present.

show abstract

Estado metabólico en ratas bajo protocolos de restricción temporal de alimento

Méndez

López-Islas

Gasca‐Martínez

2021

ICBI

View full text Add to dashboard Cite

Los ritmos circadianos son cambios en diferentes procesos fisiológicos que se repiten aproximadamente cada 24 h. Estos ritmos se sincronizan a estímulos externos como los ciclos de luz y oscuridad y los ciclos de ayuno y realimentación. La temporalidad en la alimentación regula la ritmicidad metabólica por la comunicación entre el cerebro y diversos órganos periféricos resultando en conductas anticipatorias al alimento para aprovechar de la mejor manera los nutrientes y así, lograr la homeostasis de los organismos. Sin embargo, aún no se conoce si la restricción temporal de alimento requiere acompañarse de un reto metabólico, como la restricción calórica, para sincronizar los ritmos metabólicos. En el presente trabajo analizamos indicadores del metabolismo general en ratas en respuesta a protocolos de restricción temporal de alimento, que implican ciclos de ayuno-realimentación, con diferentes grados de restricción calórica. Los resultados indican que la temporalidad de acceso al alimento resincroniza los ritmos metabólicos independientemente de la ingesta calórica.

show abstract

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

customersupport@researchsolutions.com

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

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

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.

A. López-Islas

Synchronization of the circadian clock by time-restricted feeding with progressive increasing calorie intake. Resemblances and differences regarding a sustained hypocaloric restriction

Stability of aqueous formaldehyde under γ irradiation: prebiotic relevance

Radiation-induced reactions in comet analogues

Estado metabólico en ratas bajo protocolos de restricción temporal de alimento

Contact Info

Product

Resources

About