Cytoskeleton Remodeling Induces Membrane Stiffness and Stability Changes of Maturing Reticulocytes

He, Li; Yang, Jun; Chu, Trang T. T.; Naidu, Renugah; Lu, Lu; Chandramohanadas, Rajesh; Dao, Ming; Karniadakis, George Em

doi:10.1016/j.bpj.2018.03.004

Cited by 51 publications

(48 citation statements)

References 79 publications

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“…To elucidate possible correlations, we measured membrane deformability properties of P. falciparum infected CD71 + and CD71 - cells. Membrane of the healthy CD71 + reticulocytes were significantly rigid with an estimated membrane shear modulus of 19 pN/μm compared to normocytes (average smear modulus of 6.5 pN/μm), as reported 22-37 . P. falciparum- infected CD71 + cells remained rigid during the progression of parasites ( Fig.…”

Section: Resultssupporting

confidence: 57%

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Reticulocyte Infection Leads to Altered Behaviour, Drug Sensitivity and Host Cell Remodelling byPlasmodium falciparum

Chandramohanadas

Naidu²,

Chu³

et al. 2019

Preprint

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29Plasmodia are host-specific, both at the organism and cellular levels. During asexual 30 development, Plasmodium spp. infect cells of erythroid lineage, with an overall 31 propensity towards reticulocytes. This applies to even Plasmodium (P.) falciparum, the 32 most common causative agent of human malaria, implications of which remain 33 unexplored. Herein, for the first time, we characterize the developmental stages and 34 features of P. falciparum cultured in vitro in young reticulocytes (CD71 + ) in comparison to 35 standard normocyte (CD71 -) cultures. We demonstrate that there are notable differences 36 in the patterns of invasion, development and sensitivity to potent antimalarials (such as 37 artemisinin and dihydroartemisinin) for parasites residing in CD71 + reticulocytes. 38Through a transcriptomic approach, we report that P. falciparum parasites are able to 39 sense the host cell environment, and calibrate their metabolic and host cell remodelling 40 pathways through differential gene expression. These results form an exciting avenue on 41 which hitherto unexplored interactions between Plasmodium spp and different stages of 42 host red blood cells could be investigated in the broader contexts of drug resistance, 43 host tropism and zoonosis. 45Author Summary 46Parasites causing malaria infect red blood cells for development and proliferation during 47 asexual development. This asexual erythrocytic stage determines higher parasite 48 densities and eventual disease manifestation. Although the most virulent species of 49 Plasmodium infecting humans known as Plasmodium falciparum is able to infect red 50 blood cells of all ages, these parasites show a preference for younger blood cells. Of 51 note, the biochemical and biophysical properties of young and adult red blood cells vary 52 significantly. Herein, we undertook a comparative profiling of invasion process, parasite 53 development and drug response of Plasmoddium falciparum in two host cells: young red 54 blood cells (reticulocytes) and mature red blood cells (normocytes). We demonstrate that 55 P. falciparum infects human reticulocytes with higher affinity and demonstrate differential 56 3 sensitivity to drugs such as artemisinin while they reside within reticulocytes. 57Furthermore, we show that P. falciparum is able to detect differences in host 58 environment and adapt to it by changing the expression of genes required for host cell 59 remodelling. 61 Introduction 62Plasmodium infection and associated mortality remain an important concern to the 63 developing world with 218 million malaria cases and ~450,000 deaths annually 1 64 (https://www.who.int/malaria/publications/world-malaria-report-2018/en/). 65Widespread drug-resistance 2-3 and evolution of newer phenotypes; influenced by factors 66 such as changing availability and distribution of insect vector 4 , haematological 67 malignancies(1, 2) 5-6 (thalassemia, sickle cell anaemia, G6PD deficiency etc), providing 68 protective immunity to certain populations 7 , adversely impact malaria eradic...

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Section: Resultssupporting

confidence: 57%

“…Reticulocytes possess complex membranous composition 37 and architecture rendering increased rigidity thereby influencing membrane permeability and molecular transport 38 . Previous studies show that reticulocytes have increased cation permeability for calcium (43-fold) and sodium (6-fold) 39 .…”

Section: Resultsmentioning

confidence: 99%

Reticulocyte Infection Leads to Altered Behaviour, Drug Sensitivity and Host Cell Remodelling byPlasmodium falciparum

Chandramohanadas

Naidu²,

Chu³

et al. 2019

Preprint

Self Cite

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“…This controls the extent of deformation that the cell can undergo. Cells, however, at different stages of their differentiation, expel unwanted membrane proteins by releasing small vesicles in the form of exosomes . These exosomes share striking structural similarities with bioengineered liposomes.…”

Section: Governing Equations For Electrodeformation Phenomenamentioning

confidence: 99%

Mechanical characterization of vesicles and cells: A review

et al. 2020

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Vesicles perform many essential functions in all living organisms. They respond like a transducer to mechanical stress in converting the applied force into mechanical and biological responses. At the same time, both biochemical and biophysical signals influence the vesicular response in bearing mechanical loads. In recent years, liposomes, artificial lipid vesicles, have gained substantial attention from the pharmaceutical industry as a prospective drug carrier which can also serve as an artificial cell-mimetic system. The ability of these vesicles to enter through pores of even smaller size makes them ideal candidates for therapeutic agents to reach the infected sites effectively. Engineering of vesicles with desired mechanical properties that can encapsulate drugs and release as required is the prime challenge in this field. This requirement has led to the modifications of the composition of the bilayer membrane by adding cholesterol, sphingomyelin, etc. In this article, we review the manufacturing and characterization techniques of various artificial/synthetic vesicles. We particularly focus on the electric field-driven characterization techniques to determine different properties of vesicle and its membranes, such as bending rigidity, viscosity, capacitance, conductance, etc., which are indicators of their content and mobility. Similarities and differences between artificial vesicles, natural vesicles, and cells are highlighted throughout the manuscript since most of these artificial vesicles are intended for cell mimetic functions.

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“…When a small hemispherical portion of the erythrocyte was aspired into the micropipette, the erythrocyte deformability was assessed by the surface elastic moduli, which could be calculated through the size of the aspired portion and the applied pressure. 45,46 When erythrocyte was aspirated into a micropipette with a long tongue, the shear modulus of membrane-skeleton could be determined by the tongue length. 47 The actin¯laments of the membraneskeleton were found to be obviously modi¯ed when erythrocyte was aspirated with a long tongue inside the micropipette.…”

Section: Micropipette Aspirationmentioning

confidence: 99%

Structural and functional studies of erythrocyte membrane-skeleton by single-cell and single-molecule techniques

Xing

Yang

et al. 2019

J. Innov. Opt. Health Sci.

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As the indispensable oxygen-transporting cells, erythrocytes exhibit extreme deformability and amazing stability as they are subject to huge reversible shear stress and extrusion force during massive circulation in the body. The unique architecture of spectrin-actin-based membrane-skeleton is considered to be responsible for such excellent mechanical properties of erythrocytes. Although erythrocytes have been recognized for more than 300 years, myriad questions about membrane-skeleton constantly attract people’s attention. Here, we summarize the kinds of distinctive single-cell and single-molecule techniques that were used to investigate the structure and function of erythrocyte membrane-skeleton at macro and micro levels.

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Cytoskeleton Remodeling Induces Membrane Stiffness and Stability Changes of Maturing Reticulocytes

Cited by 51 publications

References 79 publications

Reticulocyte Infection Leads to Altered Behaviour, Drug Sensitivity and Host Cell Remodelling byPlasmodium falciparum

Reticulocyte Infection Leads to Altered Behaviour, Drug Sensitivity and Host Cell Remodelling byPlasmodium falciparum

Mechanical characterization of vesicles and cells: A review

Structural and functional studies of erythrocyte membrane-skeleton by single-cell and single-molecule techniques

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