I. A. Al-Nasser scite author profile

Rat liver mitochondria became permeabilized to sucrose according to an apparent first-order process after accumulating 35 nmol of Ca2+/mg of protein in the presence of 2.5 mM-Pi, but not in its absence. A fraction (24-32%) of the internal space remains sucrose-inaccessible. The rate constant for permeabilization to sucrose decreases slightly when the pH is decreased from 7.5 to 6.5, whereas the rate of inner-membrane potential (delta psi) dissipation is markedly increased, which indicates that H+ permeation precedes sucrose permeation. Permeabilization does not release mitochondrial proteins. [14C]Sucrose appears to enter permeabilized mitochondria instantaneously. Chelation of Ca2+ with EGTA restores delta psi and entraps sucrose in the matrix space. With 20 mM-sucrose at the instant of resealing, about 21 nmol of sucrose/mg of protein becomes entrapped. The amount of sucrose entrapped is proportional to the degree of permeabilization. Entrapped sucrose is not removed by dilution of the mitochondrial suspension. Resealed mitochondria washed three times retain about 74% of the entrapped sucrose. In the presence of Ruthenium Red and Ca2+ buffers permeabilized mitochondria reseal only partially with free [Ca2+] greater than 3 microM. [14C]Sucrose enters partially resealed mitochondria continuously with time, despite maintenance of delta psi, in accordance with continued interconversion of permeable and impermeable forms. Kinetic analyses of [14C]sucrose entry indicate two Ca2+-sensitive reactions in permeabilization. This conclusion is supported by the biphasic time courses of resealing and repolarization of permeabilized mitochondria and the acute dependence of the rapid repolarization on the free [Ca2+]. A hypothetical model of permeabilization and resealing is suggested and the potential of the procedure for matrix entrapment of substances is discussed.

show abstract

The α-adrenergic-mediated activation of the cardiac mitochondrial Ca2+ uniporter and its role in the control of intramitochondrial Ca2+in vivo

Crompton¹,

Kessar²,

Al-Nasser³

1983

View full text Add to dashboard Cite

Administration of methoxamine (10 microM, 2 min) to perfused rat hearts increased the rate at which subsequently isolated mitochondria accumulated Ca2+. Methoxamine did not change significantly the development of delta phi with time or the basal rates of Ca2+ flux on inhibition of the uniporter with Ruthenium Red. With 200 microM-Pi, the rates of Ca2+ uptake at constant delta phi were unaffected by the small variations in endogenous [Pi] between mitochondrial preparations, and were also unaffected by changes in internal Ca2+ over the approximate range 8-43 nmol of Ca2+/mg. At low internal Ca2+ (about 8 nmol/mg of protein) the rates of Ca2+ uptake at constant delta phi were unaffected by addition of 200 microM-Pi. Under these conditions, the uniporter activity and the uniporter conductance were increased by 38-40% by methoxamine pretreatment. The endogenous Ca2+ content of mitochondria from control heart was about 1.8 nmol of Ca2+/mg of protein. Perfusion with agonist increased the Ca2+ content as follows: 10 microM-methoxamine (2 min), 48%; 1 microM-isoprenaline (2 min), 100%; 1 microM-adrenaline (2 min), 140%. The implications of the data for the adrenergic control of oxidative metabolism by intramitochondrial Ca2+ is discussed.

show abstract

Cadmium Hepatotoxicity and Alterations of the Mitochondrial Function

Al-Nasser

2000

Journal of Toxicology: Clinical Toxicology

View full text Add to dashboard Cite

show abstract

In vivo prevention of cyclophosphamide-induced Ca2+ dependent damage of rat heart and liver mitochondria by cyclosporin A

Al-Nasser

1998

Comparative Biochemistry and Physiology Part A: Molecular &

View full text Add to dashboard Cite

In vivo prevention of adriamycin cardiotoxicity by cyclosporin A or FK506

Al-Nasser

1998

Toxicology

View full text Add to dashboard Cite

Salicylate-induced kidney mitochondrial permeability transition is prevented by cyclosporin A

Al-Nasser

1999

Toxicology Letters

View full text Add to dashboard Cite

The entrapment of the Ca2+ indicator arsenazo III in the matrix space of rat liver mitochondria by permeabilization and resealing. Na+-dependent and -independent effluxes of Ca2+ in arsenazo III-loaded mitochondria

Al-Nasser¹,

Crompton²

1986

View full text Add to dashboard Cite

The permeabilization-resealing technique [Al-Nasser & Crompton, Biochem. J. (1986) 239, 19-29] has been applied to the entrapment of arsenazo III in the matrix compartment of rat liver mitochondria. The addition of 10 mM-arsenazo III to mitochondria permeabilized with Ca2+ partially restores the inner-membrane potential (delta psi) and leads to the recovery of 3.9 nmol of arsenazo III/mg of protein in the matrix when the mitochondria are washed three times. The recovery of entrapped arsenazo III is increased 2-fold by 4 mM-Mg2+, which also promotes repolarization. ATP with or without Mg2+ decreased arsenazo III recovery. Under all conditions, less arsenazo III than [14C]sucrose is entrapped, in particular in the presence of ATP. The amount of arsenazo III entrapped is proportional to the concentration of arsenazo III used as resealant, and is equally distributed between heavy and light mitochondria. Arsenazo III-loaded permeabilized and resealed (PR) mitochondria develop delta psi values of 141 +/- 3 mV. PR mitochondria retain arsenazo III and [14C]sucrose for more than 2 h at 0 degrees C. At 25 degrees C, and in the presence of Ruthenium Red, PR mitochondria lose arsenazo III and [14C]sucrose at equal rates, but Ca2+ efflux is more rapid; this indicates that Ca2+ is released by an Na+-independent carrier in addition to permeabilization. The Na+/Ca2+ carrier of PR mitochondria is partially (60%) inhibited by extramitochondrial free Ca2+ stabilized with Ca2+ buffers; maximal inhibition is attained with 2 microM free Ca2+. A similar inhibition occurs in normal mitochondria with 3.5 nmol of matrix Ca2+/mg of protein, but the inhibition is decreased by increased matrix Ca2+. The data suggest the presence of Ca2+ regulatory sites on the Na+/Ca2+ carrier that change the affinity for matrix free Ca2+.

show abstract

Ibuprofen-induced liver mitochondrial permeability transition

Al-Nasser¹

2000

Toxicology Letters

View full text Add to dashboard Cite

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.

I. A. Al-Nasser

The reversible Ca2+-induced permeabilization of rat liver mitochondria

The α-adrenergic-mediated activation of the cardiac mitochondrial Ca2+ uniporter and its role in the control of intramitochondrial Ca2+in vivo

Cadmium Hepatotoxicity and Alterations of the Mitochondrial Function

In vivo prevention of cyclophosphamide-induced Ca2+ dependent damage of rat heart and liver mitochondria by cyclosporin A

In vivo prevention of adriamycin cardiotoxicity by cyclosporin A or FK506

Salicylate-induced kidney mitochondrial permeability transition is prevented by cyclosporin A

The entrapment of the Ca2+ indicator arsenazo III in the matrix space of rat liver mitochondria by permeabilization and resealing. Na+-dependent and -independent effluxes of Ca2+ in arsenazo III-loaded mitochondria

Ibuprofen-induced liver mitochondrial permeability transition

Contact Info

Product

Resources

About