Comparison of electrostatic and mechanical cell sorting with limited starting material

Nicklas H Staunstrup; Charlotte C Petersen; Tina Fuglsang; Anna Starnawska; Ana Chernomorchenko; Per Qvist; Vivien R Schack

doi:10.1002/cyto.a.24523

Comparison of electrostatic and mechanical cell sorting with limited starting material

Nicklas H Staunstrup^*
, Charlotte C Petersen
, Tina Fuglsang
, Anna Starnawska
, Ana Chernomorchenko
, Per Qvist
, Vivien R Schack

^*Corresponding author af dette arbejde

Institut for Biomedicin - Forskning og uddannelse, Skou-bygningen

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

9 Citationer (Scopus)

Abstract

Isolation of multiple cell populations from limited starting material and with minimal influence on cell homeostasis and viability are common requirements in both basic and clinical research. Fluorescence-activated cell sorting (FACS) is the most commonly applied sorting methodology with the majority of instruments being based on high pressure and electrostatic deflection. A more recent technology is based on a mechanical valve, operating at low pressure. In the present work we compared the two technologies by parallel sorting of small amounts of peripheral blood and umbilical cord blood on a BD FACSAria™ III and Miltenyi MACSQuant® Tyto® instrument. Concurrent manually performed magnetic-based cell sorting served as reference. Sorting metrics, including purity and viability, were compared. Expression of the heat-shock protein HSPA1A immediately post sorting and the proliferation potential of sorted T-cells in vitro was assessed. In general, there was little to distinguish the two fluorescence-activated technologies with regard to sorting metrics and HSPA1A expression. Variation, however, with respect to recovery and viability, was much smaller among Tyto sorted samples. The proliferation potential of Tyto-sorted T-cells was significantly higher compared to Aria-sorted T-cells, indicating that T-cells of the Tyto instrument are less perturbed. In summary, cell types of blood origin including CD34 ⁺ cells could effectively be isolated from small input amounts with either fluorescence-activated technology with little immediate effect on viability. The mechanical valve-based sorting by the Tyto instrument; however, appeared to perturb the cells to a lesser extent as judged by their proliferation potential.

Originalsprog	Engelsk
Tidsskrift	Cytometry. Part A
Vol/bind	101
Nummer	4
Sider (fra-til)	298-310
Antal sider	13
ISSN	1552-4922
DOI	https://doi.org/10.1002/cyto.a.24523
Status	Udgivet - apr. 2022

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title = "Comparison of electrostatic and mechanical cell sorting with limited starting material",

abstract = "Isolation of multiple cell populations from limited starting material and with minimal influence on cell homeostasis and viability are common requirements in both basic and clinical research. Fluorescence-activated cell sorting (FACS) is the most commonly applied sorting methodology with the majority of instruments being based on high pressure and electrostatic deflection. A more recent technology is based on a mechanical valve, operating at low pressure. In the present work we compared the two technologies by parallel sorting of small amounts of peripheral blood and umbilical cord blood on a BD FACSAria{\texttrademark} III and Miltenyi MACSQuant{\textregistered} Tyto{\textregistered} instrument. Concurrent manually performed magnetic-based cell sorting served as reference. Sorting metrics, including purity and viability, were compared. Expression of the heat-shock protein HSPA1A immediately post sorting and the proliferation potential of sorted T-cells in vitro was assessed. In general, there was little to distinguish the two fluorescence-activated technologies with regard to sorting metrics and HSPA1A expression. Variation, however, with respect to recovery and viability, was much smaller among Tyto sorted samples. The proliferation potential of Tyto-sorted T-cells was significantly higher compared to Aria-sorted T-cells, indicating that T-cells of the Tyto instrument are less perturbed. In summary, cell types of blood origin including CD34 + cells could effectively be isolated from small input amounts with either fluorescence-activated technology with little immediate effect on viability. The mechanical valve-based sorting by the Tyto instrument; however, appeared to perturb the cells to a lesser extent as judged by their proliferation potential. ",

keywords = "FACS, MACS, cell sorting, purity, quality, recovery, viability, HEAT-SHOCK-PROTEIN-70, OSMOTIC-STRESS, TRANSPLANTATION, ENDOTHELIAL-CELLS, GENE-EXPRESSION, FLOW-CYTOMETRY",

author = "Staunstrup, \{Nicklas H\} and Petersen, \{Charlotte C\} and Tina Fuglsang and Anna Starnawska and Ana Chernomorchenko and Per Qvist and Schack, \{Vivien R\}",

year = "2022",

month = apr,

doi = "10.1002/cyto.a.24523",

language = "English",

volume = "101",

pages = "298--310",

journal = "Cytometry. Part A",

issn = "1552-4922",

publisher = "John Wiley \& Sons Inc.",

number = "4",

}

TY - JOUR

T1 - Comparison of electrostatic and mechanical cell sorting with limited starting material

AU - Staunstrup, Nicklas H

AU - Petersen, Charlotte C

AU - Fuglsang, Tina

AU - Starnawska, Anna

AU - Chernomorchenko, Ana

AU - Qvist, Per

AU - Schack, Vivien R

PY - 2022/4

Y1 - 2022/4

N2 - Isolation of multiple cell populations from limited starting material and with minimal influence on cell homeostasis and viability are common requirements in both basic and clinical research. Fluorescence-activated cell sorting (FACS) is the most commonly applied sorting methodology with the majority of instruments being based on high pressure and electrostatic deflection. A more recent technology is based on a mechanical valve, operating at low pressure. In the present work we compared the two technologies by parallel sorting of small amounts of peripheral blood and umbilical cord blood on a BD FACSAria™ III and Miltenyi MACSQuant® Tyto® instrument. Concurrent manually performed magnetic-based cell sorting served as reference. Sorting metrics, including purity and viability, were compared. Expression of the heat-shock protein HSPA1A immediately post sorting and the proliferation potential of sorted T-cells in vitro was assessed. In general, there was little to distinguish the two fluorescence-activated technologies with regard to sorting metrics and HSPA1A expression. Variation, however, with respect to recovery and viability, was much smaller among Tyto sorted samples. The proliferation potential of Tyto-sorted T-cells was significantly higher compared to Aria-sorted T-cells, indicating that T-cells of the Tyto instrument are less perturbed. In summary, cell types of blood origin including CD34 + cells could effectively be isolated from small input amounts with either fluorescence-activated technology with little immediate effect on viability. The mechanical valve-based sorting by the Tyto instrument; however, appeared to perturb the cells to a lesser extent as judged by their proliferation potential.

AB - Isolation of multiple cell populations from limited starting material and with minimal influence on cell homeostasis and viability are common requirements in both basic and clinical research. Fluorescence-activated cell sorting (FACS) is the most commonly applied sorting methodology with the majority of instruments being based on high pressure and electrostatic deflection. A more recent technology is based on a mechanical valve, operating at low pressure. In the present work we compared the two technologies by parallel sorting of small amounts of peripheral blood and umbilical cord blood on a BD FACSAria™ III and Miltenyi MACSQuant® Tyto® instrument. Concurrent manually performed magnetic-based cell sorting served as reference. Sorting metrics, including purity and viability, were compared. Expression of the heat-shock protein HSPA1A immediately post sorting and the proliferation potential of sorted T-cells in vitro was assessed. In general, there was little to distinguish the two fluorescence-activated technologies with regard to sorting metrics and HSPA1A expression. Variation, however, with respect to recovery and viability, was much smaller among Tyto sorted samples. The proliferation potential of Tyto-sorted T-cells was significantly higher compared to Aria-sorted T-cells, indicating that T-cells of the Tyto instrument are less perturbed. In summary, cell types of blood origin including CD34 + cells could effectively be isolated from small input amounts with either fluorescence-activated technology with little immediate effect on viability. The mechanical valve-based sorting by the Tyto instrument; however, appeared to perturb the cells to a lesser extent as judged by their proliferation potential.

KW - FACS

KW - MACS

KW - cell sorting

KW - purity

KW - quality

KW - recovery

KW - viability

KW - HEAT-SHOCK-PROTEIN-70

KW - OSMOTIC-STRESS

KW - TRANSPLANTATION

KW - ENDOTHELIAL-CELLS

KW - GENE-EXPRESSION

KW - FLOW-CYTOMETRY

U2 - 10.1002/cyto.a.24523

DO - 10.1002/cyto.a.24523

M3 - Journal article

C2 - 34842347

SN - 1552-4922

VL - 101

SP - 298

EP - 310

JO - Cytometry. Part A

JF - Cytometry. Part A

IS - 4

ER -

Comparison of electrostatic and mechanical cell sorting with limited starting material

Abstract

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