Molecular mechanisms of copper homeostasis

Lalioti, Vassiliki; Muruáis, Gemma; Tsuchiya, Y.; Pulido, Daniel; Sandoval, José R.

doi:10.2741/3575

Cited by 54 publications

(41 citation statements)

References 141 publications

(203 reference statements)

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“…Failure in copper homeostasiscan lead to several human diseases such as Menkes syndrome, Wilson's disease, as well as Parkinson and Alzheimer's diseases [8][9][10]. The toxicity of Cu has been linked to different mechanisms.…”

Section: Copper As An Essential Yet Highly Toxic Elementmentioning

confidence: 99%

Bacterial Copper Resistance and Virulence

Pontel

Checa

Soncini

2015

Bacteria-Metal Interactions

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Copper is essential for most organisms. However, it is also toxic even at low levels, especially when its local concentration or intracellular distribution is not properly controlled. Similar to other organisms, bacteria have evolved specific copper homeostasis systems for maintaining a suitable intracellular concentration of this essential metal and at the same time, avoiding its toxic effects. Recent evidence indicates that intracellular copper actively contributes to the host innate immune response against bacterial infections and pathogens have acquired specific mechanisms to deal with this intoxicant. Here, we focus on the different arrays of metal sensing and regulatory systems employed by bacterial pathogens to mount the proper response to counteract the toxic effects of copper allowing survival and replication inside the host.

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Section: Copper As An Essential Yet Highly Toxic Elementmentioning

confidence: 99%

Bacterial Copper Resistance and Virulence

Pontel

Checa

Soncini

2015

Bacteria-Metal Interactions

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“…Thus, as the cell only needs Cu + in trace amounts, to counter the relative high levels of Cu + in food, animals have developed sophisticated mechanisms to chaperone, store and eliminate excess Cu + . In the liver, hepatocytes act as the major captor of the Cu + absorbed in the digestive tract, the main reservoir and distributor of Cu + to other tissues and organs, as well as the key mediator of Cu + elimination through excretion into bile (Harris, 2000;Lalioti et al, 2009). Because of these three functionalities, the liver plays an essential role in Cu + homeostasis in mammals, birds and reptiles.…”

Section: Introductionmentioning

confidence: 99%

Basolateral sorting and transcytosis define the Cu+-regulated translocation of ATP7B to the bile canaliculus

Lalioti

Peiró

Pérez‐Berlanga

et al. 2016

Journal of Cell Science

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The Cu + pump ATP7B plays an irreplaceable role in the elimination of excess Cu + by the hepatocyte into the bile. The trafficking and site of action of ATP7B are subjects of controversy. One current proposal is that an increase in intracellular Cu + results in the translocation of ATP7B to the lysosomes and excretion of excess Cu + through lysosomal-mediated exocytosis at the bile canaliculus. Here, we show that ATP7B is transported from the trans-Golgi network (TGN) to the bile canaliculus by basolateral sorting and endocytosis, and microtubule-mediated transcytosis through the subapical compartment. Trafficking ATP7B is not incorporated into lysosomes, and addition of Cu + does not cause relocalization of lysosomes and the appearance of lysosome markers in the bile canaliculus. Our data reveal the pathway of the Cu + -mediated transport of ATP7B from the TGN to the bile canaliculus and indicates that the bile canaliculus is the primary site of ATP7B action in the elimination of excess Cu + .

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“…[71]). The copper-translocating ATP7A is involved in the Cu 2 + homeostasis and in the biosynthetic incorporation of Cu into copper-dependent enzymes that are essential for the secretory pathway, Cu detoxification via Cu efflux, and mutations in ATP7 are associated with Menkes disease [72,73].…”

Section: Correlation Between Mrna Detected By Microarrays and Qrt-pcrmentioning

confidence: 99%