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Adapting flow cytometry for studying immune cell seasonality in wild migratory bats
by
Allira, Meagan
, Lang, Mark L
, Norman, Kaylee M
, Olbrys, Beckett L
, Hightower, Mackenzie G
, Becker, Daniel J
, Dyer, Kristin E
, Demory, Bret M
in
CD11b antigen
/ CD3 antigen
/ Cell-mediated immunity
/ Flow cytometry
/ Hematology
/ Leukocyte migration
/ Leukocytes (granulocytic)
/ Leukocytes (neutrophilic)
/ Lymphocytes B
/ Lymphocytes T
/ Macrophages
/ Neutrophils
/ Rousettus aegyptiacus
/ Seasonal variations
/ Wildlife
2026
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Adapting flow cytometry for studying immune cell seasonality in wild migratory bats
by
Allira, Meagan
, Lang, Mark L
, Norman, Kaylee M
, Olbrys, Beckett L
, Hightower, Mackenzie G
, Becker, Daniel J
, Dyer, Kristin E
, Demory, Bret M
in
CD11b antigen
/ CD3 antigen
/ Cell-mediated immunity
/ Flow cytometry
/ Hematology
/ Leukocyte migration
/ Leukocytes (granulocytic)
/ Leukocytes (neutrophilic)
/ Lymphocytes B
/ Lymphocytes T
/ Macrophages
/ Neutrophils
/ Rousettus aegyptiacus
/ Seasonal variations
/ Wildlife
2026
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Adapting flow cytometry for studying immune cell seasonality in wild migratory bats
by
Allira, Meagan
, Lang, Mark L
, Norman, Kaylee M
, Olbrys, Beckett L
, Hightower, Mackenzie G
, Becker, Daniel J
, Dyer, Kristin E
, Demory, Bret M
in
CD11b antigen
/ CD3 antigen
/ Cell-mediated immunity
/ Flow cytometry
/ Hematology
/ Leukocyte migration
/ Leukocytes (granulocytic)
/ Leukocytes (neutrophilic)
/ Lymphocytes B
/ Lymphocytes T
/ Macrophages
/ Neutrophils
/ Rousettus aegyptiacus
/ Seasonal variations
/ Wildlife
2026
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Adapting flow cytometry for studying immune cell seasonality in wild migratory bats
Journal Article
Adapting flow cytometry for studying immune cell seasonality in wild migratory bats
2026
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Overview
Identifying the drivers of wildlife immunity is critical for assessing stressor impacts and zoonotic risks. However, such studies are limited by logistical challenges of wildlife research and lack of species-specific reagents. We adapt flow cytometry, typically confined to laboratory settings, to field settings to profile cellular immunity with small blood volumes and extended sample holding times. We apply these methods to analyze immune cell seasonality in migratory Mexican free-tailed bats (
). We confirmed four antibodies recognizing CD3, CD79a, MHCII, and CD11b that were originally validated in Egyptian fruit bats (
), allowing us to quantify T and B cells, macrophages, and neutrophils, respectively. Flow cytometry outperformed hematology in quantifying leukocyte profiles and revealed pronounced immune cell seasonality. Adaptive cells steadily increased between spring and fall migration. Neutrophils were most abundant during the reproductive period and decreased during migrations, whereas B cells were most abundant after reproduction and before fall migration; granulocytes as a whole, macrophages, and T cells had no seasonality. Females had more B cells than males but did not differ in other cells. Our findings lay the groundwork for applying flow cytometry to field studies of wildlife and provide important insights into the seasonality of bat immunity.
Publisher
Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory Preprints
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