Effect of complete protein 4.1R deficiency on ion transportproperties of murine erythrocytes
Moderate hemolytic anemia, abnormal erythrocyte morphology(spherocytosis), and decreased membrane stability are observed in micewith complete deficiency of all erythroid protein 4.1 protein isoforms(4.1-/-; Shi TS et al., J. Clin. Invest. 103:331,1999). We have examinedthe effects of erythroid protein 4.1 (4.1R) deficiency on erythrocytecation transport and volume regulation. 4.1-/- mice exhibited erythrocytedehydration that was associated with reduced cellular K and increased Nacontent. Increased Na permeability was observed in these mice, mostlymediated by Na/H exchange with normal Na-K pump and Na-K-2Cl cotransportactivities. The Na/H exchange of 4.1-/- erythrocytes was markedlyactivated by exposure to hypertonic conditions (18.2+- 3.2 in 4.1 -/- vs.9.8 +- 1.3 mmol/1013 cell x h in control mice), with an abnormaldependence on osmolarity, (K0.5=417 +- 42 in 4.1 -/- vs. 460 +- 35 mOsmin control mice) suggestive of an up-regulated functional state. Whilethe affinity for internal protons was not altered (K0.5= 489.7 +- 0.7 vs.537.0+- 0.56 nM in control mice), the Vmax of the H-induced Na/H exchangeactivity was markedly elevated in 4.1-/- erythrocytes (Vmax 91.47Moderatehemolytic anemia, abnormal erythrocyte morphology (spherocytosis), anddecreased membrane stability are observed in mice with completedeficiency of all erythroid protein 4.1 protein isoforms (4.1-/-; Shi TSet al., J. Clin. Invest. 103:331,1999). We have examined the effects oferythroid protein 4.1 (4.1R) deficiency on erythrocyte cation transportand volume regulation. 4.1-/- mice exhibited erythrocyte dehydration thatwas associated with reduced cellular K and increased Na content.Increased Na permeability was observed in these mice, mostly mediated byNa/H exchange with normal Na-K pump and Na-K-2Cl cotransport activities.The Na/H exchange of 4.1-/- erythrocytes was markedly activated byexposure to hypertonic conditions (18.2 +- 3.2 in 4.1 -/- vs. 9.8 +- 1.3mmol/1013 cell x h in control mice), with an abnormal dependence onosmolarity, (K0.5=417 +- 42 in 4.1 -/- vs. 460 +- 35 mOsm in controlmice) suggestive of an up-regulated functional state. While the affinityfor internal protons was not altered (K0.5= 489.7 +- 0.7 vs. 537.0 +-0.56 nM in control mice), the Vmax of the H-induced Na/H exchangeactivity was markedly elevated in 4.1-/- erythrocytes (Vmax 91.47+-7.2compared to 46.52+-5.4 mmol/1013 cell x h in control mice). Na/H exchangeactivation by okadaic acid was absent in 4.1-/- erythrocytes. Altogether,these results suggest that erythroid protein 4.1 plays a major role involume regulation and physiologically down-regulates Na/H exchange inmouse erythrocytes. Up-regulation of the Na/H exchange is an importantcontributor to the elevated cell Na content of 4.1 -/- erythrocytes.-7.2compared to 46.52+-5.4 mmol/1013 cell x h in control mice). Na/H exchangeactivation by okadaic acid was absent in 4.1-/- erythrocytes. Altogether,these results suggest that erythroid protein 4.1 plays a major role involume regulation and physiologically down-regulates Na/H exchange inmouse erythrocytes. Up-regulation of the Na/H exchange is an importantcontributor to the elevated cell Na content of 4.1 -/-erythrocytes.
- Research Organization:
- Ernest Orlando Lawrence Berkeley NationalLaboratory, Berkeley, CA (US)
- Sponsoring Organization:
- USDOE Director, Office of Science; National Institutes ofHealth
- DOE Contract Number:
- AC02-05CH11231
- OSTI ID:
- 900939
- Report Number(s):
- LBNL--60353
- Journal Information:
- American Journal of Physiology, Journal Name: American Journal of Physiology Journal Issue: 5 Vol. 291; ISSN AJPHAP; ISSN 0002-9513
- Country of Publication:
- United States
- Language:
- English
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