Francisco Palma scite author profile

Daily and annual circarhythms activity in the SouthResumen.-En otáridos se han estudiado la presencia de circaritmos de actividad sobre la base de cambios en las densidades poblacionales en las loberas. En este trabajo, se estudiaron los ritmos circadiano (24 h) y circanual (1 año) del lobo marino común Otaria flavescens en las loberas de Cochoa y Punta Curaumilla en Chile Central. El ritmo circadiano fue estudiado en ambas loberas. En cada una de ellas se realizaron censos cada 45 min durante 3 días de observación continuos (72 h). Los resultados demuestran que se produce un aumento del número de animales en tierra en horarios diurnos y una disminución en los nocturnos. Dichas fluctuaciones están asociadas a un ciclo de 24 h, y demuestran la existencia de un ritmo circadiano en estas loberas. El ritmo circanual fue estudiado en la lobera de Cochoa. Para ello se realizaron 145 observaciones durante 3 años consecutivos (1995)(1996)(1997)(1998). Los resultados muestran un aumento de la población en los meses de otoño a primavera, y una disminución brusca en el verano. Estas fluctuaciones se asocian a un ciclo de un año, y demuestran la existencia de un ritmo circanual en esta especie. Palabras clave: Lobo marino común, Otaria flavescens, Otaria byronia, ritmo circadiano, ritmo circanual.

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UTP Controls Cell Surface Distribution and Vasomotor Activity of the Human P2Y2 Receptor through an Epidermal Growth Factor Receptor-transregulated Mechanism

Norambuena

Palma

Poblete

et al. 2010

Journal of Biological Chemistry

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Extracellular nucleotides transmit signals into the cells through the P2 family of cell surface receptors. These receptors are amply expressed in human blood vessels and participate in vascular tone control; however, their signaling mechanisms remain unknown. Here we show that in smooth muscle cells of isolated human chorionic arteries, the activation of the P2Y 2 receptor (P2Y 2 R) induces not only its partition into membrane rafts but also its rapid internalization. Cholesterol depletion with methyl-␤-cyclodextrin reduced the association of the agonist-activated receptor into membrane rafts but did not affect either the UTPmediated vasoconstrictions or the vasomotor responses elicited by both serotonin and KCl. Ex vivo perfusion of human chorionic artery segments with 1-10 M UTP, a selective P2Y 2 R agonist, displaced the P2Y 2 R localization into membrane rafts within 1 min, a process preceded by the activation of both RhoA and Rac1 GTPases. AG1478, a selective and potent inhibitor of the epidermal growth factor receptor tyrosine kinase activity, not only blocked the UTP-induced vasomotor activity but also abrogated both RhoA and Rac1 activation, the P2Y 2 R association with membrane rafts, and its internalization. Altogether, these results show for the first time that the plasma membrane distribution of the P2Y 2 R is transregulated by the epidermal growth factor receptor, revealing an unsuspected functional interplay that controls both the membrane distribution and the vasomotor activity of the P2Y 2 R in intact human blood vessels.

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The effect of maternal diabetes on the Wnt/PCP pathway during embryogenesis as reflected in the developing mouse eye

López-Escobar¹,

Cano²,

Rojas

et al. 2015

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Embryopathies that develop as a consequence of maternal diabetes have been studied intensely in both experimental and clinical scenarios. Accordingly, hyperglycaemia has been shown to downregulate the expression of elements in the non-canonical Wnt-PCP pathway, such as the Dishevelled-associated activator of morphogenesis 1 (Daam1) and Vangl2. Daam1 is a formin that is essential for actin polymerization and for cytoskeletal reorganization, and it is expressed strongly in certain organs during mouse development, including the eye, neural tube and heart. Daam1gt/gt and Daam1gt/+ embryos develop ocular defects (anophthalmia or microphthalmia) that are similar to those detected as a result of hyperglycaemia. Indeed, studying the effects of maternal diabetes on the Wnt-PCP pathway demonstrated that there was strong association with the Daam1 genotype, whereby the embryopathy observed in Daam1gt/+ mutant embryos of diabetic dams was more severe. There was evidence that embryonic exposure to glucose in vitro diminishes the expression of genes in the Wnt-PCP pathway, leading to altered cytoskeletal organization, cell shape and cell polarity in the optic vesicle. Hence, the Wnt-PCP pathway appears to influence cell morphology and cell polarity, events that drive the cellular movements required for optic vesicle formation and that, in turn, are required to maintain the fate determination. Here, we demonstrate that the Wnt-PCP pathway is involved in the early stages of mouse eye development and that it is altered by diabetes, provoking the ocular phenotype observed in the affected embryos.

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Membrane locking in the finite element computation of very thin elastic shells

Choi¹,

Palma²,

Sanchez‐Palencia³

et al. 1998

ESAIM: M2AN

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Sodium Flux Ratio in Na/K Pump-Channels Opened by Palytoxin

Rakowski

Artigas

Palma

et al. 2007

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Palytoxin binds to Na+/K+ pumps in the plasma membrane of animal cells and opens an electrodiffusive cation pathway through the pumps. We investigated properties of the palytoxin-opened channels by recording macroscopic and microscopic currents in cell bodies of neurons from the giant fiber lobe, and by simultaneously measuring net current and 22Na+ efflux in voltage-clamped, internally dialyzed giant axons of the squid Loligo pealei. The conductance of single palytoxin-bound “pump-channels” in outside-out patches was ∼7 pS in symmetrical 500 mM [Na+], comparable to findings in other cells. In these high-[Na+], K+-free solutions, with 5 mM cytoplasmic [ATP], the K 0.5 for palytoxin action was ∼70 pM. The pump-channels were ∼40–50 times less permeable to N-methyl-d-glucamine (NMG+) than to Na+. The reversal potential of palytoxin-elicited current under biionic conditions, with the same concentration of a different permeant cation on each side of the membrane, was independent of the concentration of those ions over the range 55–550 mM. In giant axons, the Ussing flux ratio exponent (n') for Na+ movements through palytoxin-bound pump-channels, over a 100–400 mM range of external [Na+] and 0 to −40 mV range of membrane potentials, averaged 1.05 ± 0.02 (n = 28). These findings are consistent with occupancy of palytoxin-bound Na+/K+ pump-channels either by a single Na+ ion or by two Na+ ions as might be anticipated from other work; idiosyncratic constraints are needed if the two Na+ ions occupy a single-file pore, but not if they occupy side-by-side binding sites, as observed in related structures, and if only one of the sites is readily accessible from both sides of the membrane.

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Francisco Palma

Daily and annual circarhythms activity in the South American sea lion Otaria flavescens (Carnivora: Otariidae) at the central zone of Chile

UTP Controls Cell Surface Distribution and Vasomotor Activity of the Human P2Y2 Receptor through an Epidermal Growth Factor Receptor-transregulated Mechanism

The effect of maternal diabetes on the Wnt/PCP pathway during embryogenesis as reflected in the developing mouse eye

Membrane locking in the finite element computation of very thin elastic shells

Sodium Flux Ratio in Na/K Pump-Channels Opened by Palytoxin

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