Ting-Ying Lee scite author profile

Human CO respiration requires rapid conversion between CO and HCO Carbonic anhydrase II facilitates this reversible reaction inside red blood cells, and band 3 [anion exchanger 1 (AE1)] provides a passage for HCO flux across the cell membrane. These 2 proteins are core components of the CO transport metabolon. Intracellular HO is necessary for CO/HCO conversion. However, abundantly expressed aquaporin 1 (AQP1) in erythrocytes is thought not to be part of band 3 complexes or the CO transport metabolon. To solve this conundrum, we used Förster resonance energy transfer (FRET) measured by fluorescence lifetime imaging (FLIM-FRET) and identified interaction between aquaporin-1 and band 3 at a distance of 8 nm, within the range of dipole-dipole interaction. Notably, their interaction was adaptable to membrane tonicity changes. This suggests that the function of AQP1 in tonicity response could be coupled or correlated to its function in band 3-mediated CO/HCO exchange. By demonstrating AQP1 as a mobile component of the CO transport metabolon, our results uncover a potential role of water channel in blood CO transport and respiration.-Hsu, K., Lee, T.-Y., Periasamy, A., Kao, F.-J., Li, L.-T., Lin, C.-Y., Lin, H.-J., Lin, M. Adaptable interaction between aquaporin-1 and band 3 reveals a potential role of water channel in blood CO transport.

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Expedited CO2 respiration in people with Miltenberger erythrocyte phenotype GP.Mur

Hsu

Kuo

Yao

et al. 2015

Sci Rep

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In Southeast Asia, Miltenberger antigen subtype III (Mi.III; GP.Mur) is considered one of the most important red blood cell antigens in the field of transfusion medicine. Mi.III functions to promote erythrocyte band 3 expression and band 3-related HCO3− transport, with implications in blood CO2 metabolism. Could Mi.III affect physiologic CO2 respiration in its carriers? Here, we conducted a human trial to study the impacts of Mi.III expression in respiration. We recruited 188 healthy, adult subjects for blood typing, band 3 measurements, and respiratory tests before and after exercise. The 3-minute step exercise test forced the demand for CO2 dissipation to rise. We found that immediately following exercise, Mi.III + subjects exhaled CO2 at greater rates than Miltenberger-negative subjects. Respiration rates were also higher for Mi.III + subjects immediately after exercise. Blood gas tests further revealed distinct blood CO2 responses post-exercise between Mi.III and non-Mi.III. In contrast, from measurements of heart rates, blood O2 saturation and lactate, Mi.III phenotype was found to be independent of one’s aerobic and anaerobic capacities. Thus, Mi.III expression supported physiologic CO2 respiration. Conceivably, Mi.III + people may have advantages in performing physically enduring activities.

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Background K2P Channels KCNK3/9/15 Limit the Budding of Cell Membrane-derived Vesicles

Chi

Chen

Lee

et al. 2011

Cell Biochem Biophys

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The main function of background two-pore potassium (K(2P)) channels KCNK3/9/15 is to stabilize the cell membrane potential. We previously observed that membrane potential depolarization enhances the release of HIV-1 viruses. Because membrane polarization affects the biomembrane directly, here we examined the effects of KCNK3/9/15 on the budding of nonviral vesicles. We found that depolarization by knocking down endogenous KCNK3/9/15 promoted secretion of cell-derived vesicles. We further used Vpu (an antagonist of KCNK3) as a model for the in vivo study of depolarization-stimulated secretion. Vpu is a HIV-1-encoded, ion channel-like protein (viroporin) capable of enhancing virus release and depolarizing the cell membrane potential. We found that Vpu could also promote nonviral vesicle release, perhaps through a similar mechanism that Vpu utilizes to promote viral particle release. Notably, T cells expressing Vpu alone became pathologically low in intracellular K(+) and insensitive to extracellular K(+) or membrane potential stimulation. In contrast, heterologous expression of KCNK3 in T cells stabilized the cell potentials by maintaining intracellular K(+). We thus concluded that KCNK3/9/15 expression limits membrane depolarization and depolarization-induced secretion at least in part by maintaining intracellular K(+).

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A Flim-FRET Study of the Raft-Associated Proteins in Erythrocytes Expressing the Miltenberger Blood Group Antigen Subtype III (Mi.III) Phenotype

Hsu

Lee

Deka³

et al. 2012

Biophysical Journal

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Ting-Ying Lee

Miltenberger blood group antigen subtype III (Mi.III) supports Wr^b expression

Adaptable interaction between aquaporin‐1 and band 3 reveals a potential role of water channel in blood CO₂transport

Expedited CO2 respiration in people with Miltenberger erythrocyte phenotype GP.Mur

Background K2P Channels KCNK3/9/15 Limit the Budding of Cell Membrane-derived Vesicles

A Flim-FRET Study of the Raft-Associated Proteins in Erythrocytes Expressing the Miltenberger Blood Group Antigen Subtype III (Mi.III) Phenotype

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Ting-Ying Lee

Miltenberger blood group antigen subtype III (Mi.III) supports Wrb expression

Adaptable interaction between aquaporin‐1 and band 3 reveals a potential role of water channel in blood CO2transport

Expedited CO2 respiration in people with Miltenberger erythrocyte phenotype GP.Mur

Background K2P Channels KCNK3/9/15 Limit the Budding of Cell Membrane-derived Vesicles

A Flim-FRET Study of the Raft-Associated Proteins in Erythrocytes Expressing the Miltenberger Blood Group Antigen Subtype III (Mi.III) Phenotype

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Product

Resources

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Miltenberger blood group antigen subtype III (Mi.III) supports Wr^b expression

Adaptable interaction between aquaporin‐1 and band 3 reveals a potential role of water channel in blood CO₂transport