Immunologic Memory

"Immunologic Memory" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

The altered state of immunologic responsiveness resulting from initial contact with antigen, which enables the individual to produce antibodies more rapidly and in greater quantity in response to secondary antigenic stimulus.

Descriptor ID	D007156
MeSH Number(s)	G12.450.050.500
Concept/Terms	Immunologic Memory Immunologic Memory Immunological Memory Immunological Memories Memories, Immunological Memory, Immunological Memory, Immunologic Immunologic Memories Memories, Immunologic

Below are MeSH descriptors whose meaning is more general than "Immunologic Memory".

Biological Sciences [G]
Immune System Phenomena [G12]
Immunity [G12.450]
Adaptive Immunity [G12.450.050]
Immunologic Memory [G12.450.050.500]

Below are MeSH descriptors whose meaning is related to "Immunologic Memory".

Below are MeSH descriptors whose meaning is more specific than "Immunologic Memory".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "Immunologic Memory" by people in this website by year, and whether "Immunologic Memory" was a major or minor topic of these publications.

Bar chart showing 208 publications over 31 distinct years, with a maximum of 15 publications in 2005

To see the data from this visualization as text, click here.

Year	Major Topic	Minor Topic	Total
1995	2	2	4
1996	2	1	3
1997	1	1	2
1998	4	2	6
1999	2	3	5
2000	3	2	5
2001	3	3	6
2002	5	3	8
2003	7	3	10
2004	8	5	13
2005	9	6	15
2006	6	4	10
2007	5	4	9
2008	9	3	12
2009	1	4	5
2010	6	5	11
2011	6	3	9
2012	4	4	8
2013	4	1	5
2014	4	3	7
2015	4	2	6
2016	3	3	6
2017	3	6	9
2018	4	2	6
2019	4	2	6
2020	5	3	8
2021	5	1	6
2022	0	1	1
2023	1	2	3
2024	0	1	1
2025	2	1	3

Below are the most recent publications written about "Immunologic Memory" by people in Profiles.

Perugino CA, Liu H, Feldman J, Marbourg J, Guy TV, Hui A, Ingram N, Liebaert J, Chaudhary N, Tao W, Jacob-Dolan C, Hauser BM, Mian Z, Nathan A, Zhao Z, Kaseke C, Tano-Menka R, Getz MA, Senjobe F, Berrios C, Ofoman O, Manickas-Hill Z, Wesemann DR, Lemieux JE, Goldberg MB, N?ndel K, Moormann A, Marshak-Rothstein A, Larocque RC, Ryan ET, Iafrate JA, Lingwood D, Gaiha G, Charles R, Balazs AB, Pandit A, Naranbhai V, Schmidt AG, Pillai S. Two distinct durable human class-switched memory B cell populations are induced by vaccination and infection. Cell Rep. 2025 Apr 22; 44(4):115472.

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Mon-Wei Yu S, Choi JY, Kady J, De Cos M, Wong JS, King E, Younis N, Al Rahy N, Al Chaar S, Djebli H, Eskandari S, Samuel S, Merhej T, Sukumar N, Lin JR, Chen JY, Xu Y, Santagata S, Weins A, Yeung M, Cravedi P, Campbell KN, Lemos D, Bonventre JV, Brehm MA, Azzi J. Transplantation of human kidney organoids elicited a robust allogeneic response in a humanized mouse model. Kidney Int. 2025 Jun; 107(6):1011-1016.

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Ravi VR, Korkmaz FT, De Ana CL, Lu L, Shao FZ, Odom CV, Barker KA, Ramanujan A, Niszczak EN, Goltry WN, Martin IMC, Ha CT, Quinton LJ, Jones MR, Fine A, Welch JD, Chen F, Belkina AC, Mizgerd JP, Shenoy AT. Lung CD4+ resident memory T?cells use airway secretory cells to stimulate and regulate onset of allergic airway neutrophilic disease. Cell Rep. 2025 Mar 25; 44(3):115294.

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Etesami NS, Barker KA, Shenoy AT, De Ana CL, Arafa EI, Grifno GN, Matschulat AM, Vannini ME, Pihl RMF, Breen MP, Soucy AM, Goltry WN, Ha CT, Betsuyaku H, Browning JL, Varelas X, Traber KE, Jones MR, Quinton LJ, Maglione PJ, Nia HT, Belkina AC, Mizgerd JP. B cells in the pneumococcus-infected lung are heterogeneous and require CD4+ T cell help including CD40L to become resident memory B cells. Front Immunol. 2024; 15:1382638.

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Swain SL. CD4 memory has a hierarchical structure created by requirements for infection-derived signals at an effector checkpoint. Front Immunol. 2023; 14:1306433.

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Lyon De Ana C, Shenoy AT, Barker KA, Arafa EI, Etesami NS, Korkmaz FT, Soucy AM, Breen MP, Martin IMC, Tilton BR, Devarajan P, Crossland NA, Pihl RMF, Goltry WN, Belkina AC, Jones MR, Quinton LJ, Mizgerd JP. GL7 ligand expression defines a novel subset of CD4+ TRM cells in lungs recovered from pneumococcus. Mucosal Immunol. 2023 10; 16(5):699-710.

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Jones MC, Castonguay C, Nanaware PP, Weaver GC, Stadinski B, Kugler-Umana OA, Huseby ES, Stern LJ, McKinstry KK, Strutt TM, Devarajan P, Swain SL. CD4 Effector TCR Avidity for Peptide on APC Determines the Level of Memory Generated. J Immunol. 2023 06 15; 210(12):1950-1961.

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Whitley SK, Li M, Kashem SW, Hirai T, Igy?rt? BZ, Knizner K, Ho J, Ferris LK, Weaver CT, Cua DJ, McGeachy MJ, Kaplan DH. Local IL-23 is required for proliferation and retention of skin-resident memory TH17 cells. Sci Immunol. 2022 11 18; 7(77):eabq3254.

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Swain SL, Jones MC, Devarajan P, Xia J, Dutton RW, Strutt TM, McKinstry KK. Durable CD4 T-Cell Memory Generation Depends on Persistence of High Levels of Infection at an Effector Checkpoint that Determines Multiple Fates. Cold Spring Harb Perspect Biol. 2021 11 01; 13(11).

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Barker KA, Etesami NS, Shenoy AT, Arafa EI, Lyon de Ana C, Smith NM, Martin IM, Goltry WN, Barron AM, Browning JL, Kathuria H, Belkina AC, Guillon A, Zhong X, Crossland NA, Jones MR, Quinton LJ, Mizgerd JP. Lung-resident memory B cells protect against bacterial pneumonia. J Clin Invest. 2021 06 01; 131(11).

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