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Mary Carrington

Cancer Institute (WIA)

ORCID: 0000-0002-2692-2180

Publishes on Immune Cell Function and Interaction, HIV Research and Treatment, T-cell and B-cell Immunology. 630 papers and 54.4k citations.

630Publications
54.4kTotal Citations
Immune Cell Function and InteractionHIV Research and TreatmentT-cell and B-cell ImmunologyReproductive System and PregnancyImmunotherapy and Immune Responses

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Top publicationsby citations

Genetic Restriction of HIV-1 Infection and Progression to AIDS by a Deletion Allele of the <i>CKR5</i> Structural Gene
Michael Dean, Mary Carrington, Cheryl A. Winkler et al.|Science|1996
Cited by 2.5k

The chemokine receptor 5 (CKR5) protein serves as a secondary receptor on CD4(+) T lymphocytes for certain strains of human immunodeficiency virus-type 1 (HIV-1). The CKR5 structural gene was mapped to human chromosome 3p21, and a 32-base pair deletion allele (CKR5Delta32) was identified that is present at a frequency of approximately0.10 in the Caucasian population of the United States. An examination of 1955 patients included among six well-characterized acquired immunodeficiency syndrome (AIDS) cohort studies revealed that 17 deletion homozygotes occurred exclusively among 612 exposed HIV-1 antibody-negative individuals (2.8 percent) and not at all in 1343 HIV-1-infected individuals. The frequency of CKR5 deletion heterozygotes was significantly elevated in groups of individuals that had survived HIV-1 infection for more than 10 years, and, in some risk groups, twice as frequent as their occurrence in rapid progressors to AIDS. Survival analysis clearly shows that disease progression is slower in CKR5 deletion heterozygotes than in individuals homozygous for the normal CKR5 gene. The CKR5Delta32 deletion may act as a recessive restriction gene against HIV-1 infection and may exert a dominant phenotype of delaying progression to AIDS among infected individuals.

<i>HLA</i>and HIV-1: Heterozygote Advantage and<i>B*35</i>-<i>Cw*04</i>Disadvantage
Mary Carrington, George W. Nelson, Maureen P. Martin et al.|Science|1999
Cited by 1.2k

A selective advantage against infectious disease associated with increased heterozygosity at the human major histocompatibility complex [human leukocyte antigen (HLA) class I and class II] is believed to play a major role in maintaining the extraordinary allelic diversity of these genes. Maximum HLA heterozygosity of class I loci (A, B, and C) delayed acquired immunodeficiency syndrome (AIDS) onset among patients infected with human immunodeficiency virus-type 1 (HIV-1), whereas individuals who were homozygous for one or more loci progressed rapidly to AIDS and death. The HLA class I alleles B*35 and Cw*04 were consistently associated with rapid development of AIDS-defining conditions in Caucasians. The extended survival of 28 to 40 percent of HIV-1-infected Caucasian patients who avoided AIDS for ten or more years can be attributed to their being fully heterozygous at HLA class I loci, to their lacking the AIDS-associated alleles B*35 and Cw*04, or to both.