Your search keyword '"Nelson, J Lee"' showing total 29 results

1. Ultrasensitive Quantitation of Genomic Chimerism by Single-Molecule Molecular Inversion Probe Capture and High-Throughput Sequencing of Copy Number Deletion Polymorphisms.

Author

Wu D, Kanaan SB, Penewit K, Waalkes A, Urselli F, Nelson JL, Radich J, and Salipante SJ

Subjects

DNA Copy Number Variations genetics, Genomics, Genotype, High-Throughput Nucleotide Sequencing, Humans, Chimerism, Hematopoietic Stem Cell Transplantation

Abstract

Genomic chimerism represents co-existing cells with different genotypes and has diagnostic significance in transplant engraftment monitoring, residual cancer detection, and other contexts. We previously described an approach to chimerism detection by interrogating variably present or absent genomic loci using single-molecule molecular inversion probes (smMIPs) and next-generation sequencing, which provided ultrasensitive limits of detection (<1 in 10,000 cells) but was not reliably quantitative. Herein, smMIP testing was modified to accurately quantitate chimeric cells by incorporating copy number neutral control loci for data normalization and computationally modeling cell mixtures from individual-specific genotypes. Data demonstrate precision and accuracy over three orders of magnitude (0.01% to 50% chimerism). Seventy hematopoietic stem cell transplant specimens from single (n = 42) or double (n = 28) donors were evaluated, benchmarking smMIP against conventional variable number tandem repeat (VNTR) analysis and an unrelated, ultrasensitive polymorphism-specific quantitative PCR (PS-qPCR) assay. Quantitative concordance of all three assays was high (P < 0.0005, Pearson correlation coefficient), although smMIP correlated better with VNTR testing than PS-qPCR. smMIP and PS-qPCR collectively identified low-level chimerism in all specimens testing negative by VNTR (n = 41 and n = 45 of 48 specimens, respectively). This work demonstrates the feasibility of smMIP-based chimerism testing for quantitative and ultrasensitive measurement of genomic chimerism at practical levels approaching one in one million cells, and cross-validates the approach., (Copyright © 2022 Association for Molecular Pathology and American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2022

2. Predictors of maternal-origin microchimerism in young women in the Philippines.

Author

Pan TD, Kanaan SB, Lee NR, Avila JL, Nelson JL, and Eisenberg DTA

Subjects

Adult, Anthropology, Physical, Breast Feeding statistics & numerical data, Cohort Studies, DNA analysis, DNA classification, DNA genetics, Female, Humans, Immune Tolerance genetics, Maternal-Fetal Exchange genetics, Philippines, Telomere genetics, Young Adult, Chimerism, Pregnancy genetics, Pregnancy statistics & numerical data

Abstract

Objectives: Microchimerism is the presence of a small quantity of cells or DNA from a genetically distinct individual. This phenomenon occurs with bidirectional maternal-fetal exchange during pregnancy. Microchimerism can persist for decades after delivery and have long-term health implications. However, little is known about why microchimerism is detectable at varying levels in different individuals. We examine the variability and the following potential determinants of maternal-origin microchimerism (MMc) in young women in the Philippines: gestational duration (in utero exposure to MMc), history of being breastfed (postpartum exposure to MMc), maternal telomere length (maternal cells' ability to replicate and persist), and participant's pregnancies in young adulthood (effect of adding fetal-origin microchimerism to preexisting MMc)., Materials and Methods: Data are from the Cebu Longitudinal Health and Nutrition Survey, a population-based study of infant feeding practices and long-term health outcomes. We quantified MMc using quantitative PCR (qPCR) in 89 female participants, ages 20-22, and analyzed these data using negative binomial regression., Results: In a multivariate model including all predictors, being breastfed substantially predicted decreased MMc (detection rate ratio = 0.15, p = 0.007), and there was a trend of decreasing MMc in participants who had experienced more pregnancies (detection rate ratio = 0.55, p = 0.057)., Discussion: These results might be explained by breastfeeding having lasting impact on immune regulatory networks, thus reducing MMc persistence. MMc may also decrease in response to the introduction of fetal-origin microchimerism with pregnancies experienced in adulthood., (© 2020 Wiley Periodicals LLC.)

Published

2021

3. Maternal Microchimerism Predicts Increased Infection but Decreased Disease due to Plasmodium falciparum During Early Childhood.

Author

Harrington WE, Kanaan SB, Muehlenbachs A, Morrison R, Stevenson P, Fried M, Duffy PE, and Nelson JL

Subjects

Adult, Child, Preschool, Cohort Studies, Female, Hospitalization, Humans, Infant, Infant, Newborn, Malaria, Falciparum epidemiology, Male, Placenta Diseases epidemiology, Plasmodium falciparum, Pregnancy, Pregnancy Complications, Parasitic epidemiology, Prevalence, Young Adult, Chimerism statistics & numerical data, Disease Susceptibility, Malaria, Falciparum genetics, Placenta Diseases genetics, Pregnancy Complications, Parasitic genetics

Abstract

Background: A mother's infection with placental malaria (PM) can affect her child's susceptibility to malaria, although the mechanism remains unclear. The fetus acquires a small amount of maternal cells and DNA known as maternal microchimerism (MMc), and we hypothesized that PM increases MMc and that MMc alters risk of Plasmodium falciparum malaria during infancy., Methods: In a nested cohort from Muheza, Tanzania, we evaluated the presence and level of cord blood MMc in offspring of women with and without PM. A maternal-specific polymorphism was identified for each maternal-infant pair, and MMc was assayed by quantitative polymerase chain reaction. The ability of MMc to predict malaria outcomes during early childhood was evaluated in longitudinal models., Results: Inflammatory PM increased the detection rate of MMc among offspring of primigravidae and secundigravidae, and both noninflammatory and inflammatory PM increased the level of MMc. Detectable MMc predicted increased risk of positive blood smear but, interestingly, decreased risk of symptomatic malaria and malaria hospitalization., Conclusions: The acquisition of MMc may result in increased malaria infection but protection from malaria disease. Future studies should be directed at the cellular component of MMc, with attention to its ability to directly or indirectly coordinate anti-malarial immune responses in the offspring., (© The Author 2017. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2017

4. Statistical Methods for Unusual Count Data: Examples From Studies of Microchimerism.

Author

Guthrie KA, Gammill HS, Kamper-Jørgensen M, Tjønneland A, Gadi VK, Nelson JL, and Leisenring W

Subjects

Binomial Distribution, Data Interpretation, Statistical, Datasets as Topic, Humans, Poisson Distribution, Chimerism, Models, Statistical

Abstract

Natural acquisition of small amounts of foreign cells or DNA, referred to as microchimerism, occurs primarily through maternal-fetal exchange during pregnancy. Microchimerism can persist long-term and has been associated with both beneficial and adverse human health outcomes. Quantitative microchimerism data present challenges for statistical analysis, including a skewed distribution, excess zero values, and occasional large values. Methods for comparing microchimerism levels across groups while controlling for covariates are not well established. We compared statistical models for quantitative microchimerism values, applied to simulated data sets and 2 observed data sets, to make recommendations for analytic practice. Modeling the level of quantitative microchimerism as a rate via Poisson or negative binomial model with the rate of detection defined as a count of microchimerism genome equivalents per total cell equivalents tested utilizes all available data and facilitates a comparison of rates between groups. We found that both the marginalized zero-inflated Poisson model and the negative binomial model can provide unbiased and consistent estimates of the overall association of exposure or study group with microchimerism detection rates. The negative binomial model remains the more accessible of these 2 approaches; thus, we conclude that the negative binomial model may be most appropriate for analyzing quantitative microchimerism data.

Published

2016

5. Microchimerism in recurrent miscarriage.

Author

Gammill HS, Stephenson MD, Aydelotte TM, and Nelson JL

Subjects

Abortion, Habitual genetics, Adult, Cohort Studies, Female, Fetus, Genotype, Histocompatibility Testing, Humans, Mothers, Preconception Care, Pregnancy, Pregnancy Outcome, Prospective Studies, Abortion, Habitual epidemiology, Chimerism statistics & numerical data, Maternal-Fetal Exchange genetics

Abstract

Maternal-fetal cell exchange during pregnancy results in acquisition of microchimerism, which can durably persist in both recipients. Naturally acquired microchimerism may impact maternal-fetal interaction in pregnancy. We conducted studies to ask whether microchimerism that a woman acquired from her own mother is detectable before or during pregnancy in women with recurrent miscarriage. Fetal microchimerism was also assayed. Women with primary idiopathic recurrent miscarriage (n=23) and controls (n=31) were studied. Genotyping was conducted for probands, their mothers and the fetus, a non-shared polymorphism identified and quantitative polymerase chain reaction performed to measure microchimerismin peripheral blood mononuclear cells. Preconception comparisons were made between recurrent miscarriage subjects and controls, using logistic regression and Wilcoxon rank sum. Longitudinal microchimerism in subsequent pregnancies of recurrent miscarriage subjects was described. There was a trend toward lower preconception detection of microchimerism in recurrent miscarriage versus controls, 6% vs. 19% (1/16 vs. 6/31, P=0.2). During pregnancy, 3/11 (27%) of recurrent miscarriage subjects who went on to have a birth had detection of microchimerism from their own mother, whereas neither of two subjects who went on to miscarry had detection (0/2). This initial data suggest that microchimerism from a woman's own mother, while detectable in women with recurrent miscarriage, may differ from controls and according to subsequent pregnancy outcome. Further studies are needed to determine the cell types, quantities and any potential functional role of microchimerism in recurrent miscarriage.

Published

2014

6. Microchimerism in women with recurrent miscarriage.

Author

Gammill HS, Stephenson MD, Aydelotte TM, and Nelson JL

Subjects

Female, Granulocytes cytology, Granulocytes metabolism, Humans, Maternal-Fetal Exchange, Pregnancy, Abortion, Habitual genetics, Chimerism

Abstract

Miscarriage is the most common pregnancy complication, and recurrent miscarriage (3 or more consecutive pregnancy losses) affects 1-5% of couples. Maternal-fetal exchange and the persistence of exchanged material as microchimerism appears to be disrupted in complicated pregnancies. We recently conducted a longitudinal cohort study of microchimerism in women with recurrent miscarriage. Our initial data raise multiple questions that require further investigation. Here, we review our data from this recent study and provide additional information regarding microchimerism in the granulocyte cell layer. This area of investigation offers a unique window into early reproductive events, and future related studies have the potential to identify novel therapeutic approaches and insights into human evolution.

Published

2014

7. Cellular fetal microchimerism in preeclampsia.

Author

Gammill HS, Aydelotte TM, Guthrie KA, Nkwopara EC, and Nelson JL

Subjects

Adult, Female, Fetus immunology, Genotype, Gestational Age, HLA Antigens genetics, Humans, Leukocytes, Mononuclear immunology, Maternal-Fetal Exchange genetics, Maternal-Fetal Exchange immunology, Pre-Eclampsia immunology, Pregnancy, Chimerism, Pre-Eclampsia genetics

Abstract

Previous studies have shown elevated concentrations of free fetal DNA and erythroblasts in maternal circulation in women with preeclampsia compared with those with normal pregnancy. Pluripotent and immunocompetent fetal cells also transfer to the maternal circulation during pregnancy, but whether concentrations of fetal mononuclear cells also differed in preeclampsia was unknown. We sought to quantify cellular fetal microchimerism in maternal circulation in women with preeclampsia and healthy controls. We studied women with preeclampsia and compared them with women with healthy pregnancies at similar gestational age. To identify a targetable polymorphism unique to the fetus to quantify fetal microchimerism, participants and family members were genotyped for the human leukocyte antigen loci DRB1, DQA1, and DQB1, as well as several other polymorphisms. A panel of polymorphism-specific quantitative polymerase chain reaction assays was used to identify and quantify fetal microchimerism in maternal peripheral blood mononuclear cells. Of 53 preeclampsia samples tested for cellular fetal microchimerism, 17 (32%) were positive when compared with 6 of 57 (6%) control samples (unadjusted odds ratio for detection, 4.0; 95% confidence interval, 1.5-11.1; P=0.007). The concentration of cellular fetal microchimerism (expressed as genome equivalents of fetal microchimerism per 100,000 maternal genome equivalents) was also higher among women with preeclampsia: median 0.0, mean 5.7, range 0 to 153.7, compared with those with controls: median 0.0, mean 0.3, range 0 to 9.1, P=0.002. We conclude that women with preeclampsia harbor cellular fetal microchimerism more commonly and at higher concentrations compared with women with uncomplicated pregnancy. The functional capacity and phenotype of these fetal cells are not yet known.

Published

2013

8. Meeting report of the First Symposium on Chimerism.

Author

van Halteren AG, Sedlmayr P, Kroneis T, Burlingham WJ, and Nelson JL

Subjects

Autoimmune Diseases immunology, Female, HLA Antigens immunology, Humans, Pregnancy, Autoimmune Diseases pathology, Chimerism embryology, HLA Antigens genetics, Maternal-Fetal Exchange immunology

Published

2013

9. Fetal cellular microchimerism in miscarriage and pregnancy termination.

Author

Peterson SE, Nelson JL, Gadi VK, and Gammill HS

Subjects

Abortion, Spontaneous pathology, Female, Fetus, Humans, Male, Pregnancy, Prospective Studies, Abortion, Induced, Abortion, Spontaneous genetics, Chimerism embryology, Maternal-Fetal Exchange

Abstract

Fetal cells transfer to the mother during pregnancy and can persist long-term as microchimerism. Acquisition of microchimerism may also occur during pregnancy loss, either miscarriage or pregnancy termination. Because nearly half of all pregnancies end in loss, we recently investigated the magnitude of fetal cell transfer during pregnancy loss and whether obstetric clinical factors impacted cell transfer. Prospective measurement of fetal cellular microchimerism before and after miscarriage and termination of pregnancy demonstrated a significant transfer of fetal cells in these pregnancies, with higher concentrations of fetal microchimerism in pregnancy termination vs. miscarriage and in those that were managed surgically vs. medically. The frequency of pregnancy loss as a proportion of all pregnancies, and the overrepresentation of fetal genetic abnormalities in pregnancy loss suggest that the resultant acquisition of fetal microchimerism could have a unique and substantial impact on women's health.

Published

2013

10. Microchimerism in the human brain: more questions than answers.

Author

Chan WF and Nelson JL

Subjects

Alzheimer Disease epidemiology, DNA genetics, Female, Humans, Male, Pregnancy, Alzheimer Disease immunology, Blood-Brain Barrier immunology, Brain immunology, Chimerism

Abstract

Recently, our group reported the presence of microchimerism (Mc) in the human brain by performing quantitative PCR on female human brain tissues to amplify male DNA. We found brain Mc to be relatively frequent in humans and widely distributed in this organ. Our data also suggested a lower prevalence of brain Mc in women without Alzheimer disease than women without neurological disease. Altogether, these findings suggest that Mc could sometimes influence health and disease of the brain. As further research will be required to clarify this issue, here we discuss some of the questions that could be addressed to improve our understanding.

Published

2013

11. The otherness of self: microchimerism in health and disease.

Author

Nelson JL

Subjects

Animals, Autoimmune Diseases immunology, HLA Antigens immunology, Humans, Neoplasms immunology, Autoimmunity, Chimerism

Abstract

Microchimerism (Mc) refers to the harboring of a small number of cells (or DNA) that originated in a different individual. Naturally acquired Mc derives primarily from maternal cells in her progeny, or cells of fetal origin in women. Both maternal and fetal Mc are detected in hematopoietic cells including T and B cells, monocyte/macrophages, natural killer (NK) cells and granulocytes. Mc appears also to generate cells such as myocytes, hepatocytes, islet β cells and neurons. Here, the detrimental and beneficial potential of Mc is examined. The prevalence, diversity and durability of naturally acquired Mc, including in healthy individuals, indicates that a shift is needed from the conventional paradigm of 'self versus other' to a view of the normal 'self' as constitutively chimeric., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

12. Microchimerism in the rheumatoid nodules of patients with rheumatoid arthritis.

Author

Chan WF, Atkins CJ, Naysmith D, van der Westhuizen N, Woo J, and Nelson JL

Subjects

Adult, Aged, Aged, 80 and over, Alleles, Arthritis, Rheumatoid immunology, Female, Genotype, HLA Antigens genetics, Humans, Male, Middle Aged, Rheumatoid Nodule immunology, Arthritis, Rheumatoid genetics, Chimerism, Rheumatoid Nodule genetics

Abstract

Objective: The rheumatoid nodule is a lesion commonly found on extraarticular areas prone to mechanic trauma. When present with inflammatory symmetric polyarthritis, it is pathognomonic of rheumatoid arthritis (RA), an autoimmune disease in which naturally acquired microchimerism has previously been described and can sometimes contribute to RA risk. Since RA patients harbor microchimerism in the blood, we hypothesized that microchimerism is also present in rheumatoid nodules and could play a role in rheumatoid nodule formation. This study was undertaken to investigate rheumatoid nodules for microchimerism., Methods: Rheumatoid nodules were tested for microchimerism by real-time quantitative polymerase chain reaction (qPCR). The rheumatoid nodules of 29 female patients were tested for a Y chromosome-specific sequence. After HLA genotyping of patients and family members, rheumatoid nodules from 1 man and 14 women were tested by HLA-specific qPCR, targeting a nonshared HLA allele of the potential microchimerism source. Results were expressed as genome equivalents of microchimeric cells per 10(5) patient genome equivalents (GE/10(5))., Results: Rheumatoid nodules from 21% of the female patients contained male DNA (range <0.5, 10.3 GE/10(5)). By HLA-specific qPCR, 60% of patients were microchimeric (range 0, 18.5 GE/10(5)). Combined microchimerism prevalence was 47%. A fetal or maternal source was identified in all patients who tested positive by HLA-specific qPCR. Unexpectedly, a few rheumatoid nodules also contained microchimerism without evidence of a fetal or maternal source, suggesting alternative sources., Conclusion: Our findings indicate that microchimerism is frequently present in the rheumatoid nodules of RA patients. Since microchimerism is genetically disparate, whether microchimerism in rheumatoid nodules serves as an allogeneic stimulus or allogeneic target warrants further investigation., (Copyright © 2012 by the American College of Rheumatology.)

Published

2012

13. Male microchimerism in the human female brain.

Author

Chan WF, Gurnot C, Montine TJ, Sonnen JA, Guthrie KA, and Nelson JL

Subjects

Adult, Aged, Aged, 80 and over, Alzheimer Disease pathology, Autopsy, Brain pathology, Chromosomes, Human, Y, Female, Fetus, Humans, Male, Middle Aged, Pregnancy, Real-Time Polymerase Chain Reaction, Alzheimer Disease genetics, Brain metabolism, Chimerism, Maternal-Fetal Exchange genetics

Abstract

In humans, naturally acquired microchimerism has been observed in many tissues and organs. Fetal microchimerism, however, has not been investigated in the human brain. Microchimerism of fetal as well as maternal origin has recently been reported in the mouse brain. In this study, we quantified male DNA in the human female brain as a marker for microchimerism of fetal origin (i.e. acquisition of male DNA by a woman while bearing a male fetus). Targeting the Y-chromosome-specific DYS14 gene, we performed real-time quantitative PCR in autopsied brain from women without clinical or pathologic evidence of neurologic disease (n=26), or women who had Alzheimer's disease (n=33). We report that 63% of the females (37 of 59) tested harbored male microchimerism in the brain. Male microchimerism was present in multiple brain regions. Results also suggested lower prevalence (p=0.03) and concentration (p=0.06) of male microchimerism in the brains of women with Alzheimer's disease than the brains of women without neurologic disease. In conclusion, male microchimerism is frequent and widely distributed in the human female brain.

Published

2012

14. Acquisition of the rheumatoid arthritis HLA shared epitope through microchimerism.

Author

Yan Z, Aydelotte T, Gadi VK, Guthrie KA, and Nelson JL

Subjects

Adult, Aged, Arthritis, Rheumatoid epidemiology, Arthritis, Rheumatoid genetics, Epitopes genetics, Epitopes immunology, Female, Genetic Predisposition to Disease epidemiology, HLA-DRB1 Chains genetics, Humans, Leukocytes, Mononuclear immunology, Male, Maternal-Fetal Exchange genetics, Middle Aged, Pregnancy, Prevalence, Real-Time Polymerase Chain Reaction, Risk Factors, Arthritis, Rheumatoid immunology, Chimerism statistics & numerical data, HLA-DRB1 Chains immunology, Maternal-Fetal Exchange immunology

Abstract

Objective: HLA-DRB1 alleles associated with risk of rheumatoid arthritis (RA) encode similar HLA-DRB1 sequences, called the shared epitope (SE). The most common SE sequences are QKRAA and QRRAA. Nevertheless, a substantial number of RA patients lack the SE. Bidirectional fetal-maternal trafficking results in long-term persistence of fetal cells in the mother and maternal cells in her offspring, a process known as microchimerism. This study was undertaken to discover whether RA patients who lack the SE can acquire it through microchimerism., Methods: We studied a total of 86 female subjects who were genotypically negative for the SE, comprising 52 patients with RA and 34 healthy controls. We developed specific real-time quantitative polymerase chain reaction assays for the SE-encoded sequences QKRAA and QRRAA, and used them to test DNA extracted from peripheral blood mononuclear cells., Results: Microchimerism with the SE was found significantly more often in RA patients than controls (odds ratio 4.1 [95% confidence interval 1.6-10.0], P = 0.003). Concentrations of SE microchimerism were also significantly higher among RA patients than controls (P = 0.002). In separate analyses for SE type, the prevalence of QKRAA microchimerism in RA patients versus healthy controls was 17% versus 3% (9 of 52 versus 1 of 34; P = 0.03) and the prevalence of QRRAA microchimerism was 40% versus 18% (21 of 52 versus 6 of 34; P = 0.04), respectively. Microchimerism concentrations were also higher in RA patients than healthy subjects for QKRAA (P = 0.03) and QRRAA (P = 0.03)., Conclusion: These results indicate that RA patients who genotypically lack the SE can acquire the SE as persistent microchimerism from fetal-maternal cell exchange, suggesting that SE-encoding microchimerism could be a risk factor for RA., (Copyright © 2011 by the American College of Rheumatology.)

Published

2011

15. Pregnancy, microchimerism, and the maternal grandmother.

Author

Gammill HS, Adams Waldorf KM, Aydelotte TM, Lucas J, Leisenring WM, Lambert NC, and Nelson JL

Subjects

Adult, Case-Control Studies, Child, Female, Humans, Longitudinal Studies, Pre-Eclampsia genetics, Chimerism, Mothers, Pregnancy genetics

Abstract

Background: A WOMAN OF REPRODUCTIVE AGE OFTEN HARBORS A SMALL NUMBER OF FOREIGN CELLS, REFERRED TO AS MICROCHIMERISM: a preexisting population of cells acquired during fetal life from her own mother, and newly acquired populations from her pregnancies. An intriguing question is whether the population of cells from her own mother can influence either maternal health during pregnancy and/or the next generation (grandchildren)., Methodology/principal Findings: Microchimerism from a woman's (i.e. proband's) own mother (mother-of-the-proband, MP) was studied in peripheral blood samples from women followed longitudinally during pregnancy who were confirmed to have uncomplicated obstetric outcomes. Women with preeclampsia were studied at the time of diagnosis and comparison made to women with healthy pregnancies matched for parity and gestational age. Participants and family members were HLA-genotyped for DRB1, DQA1, and DQB1 loci. An HLA polymorphism unique to the woman's mother was identified, and a panel of HLA-specific quantitative PCR assays was employed to identify and quantify microchimerism. Microchimerism from the MP was identified during normal, uncomplicated pregnancy, with a peak concentration in the third trimester. The likelihood of detection increased with advancing gestational age. For each advancing trimester, there was a 12.7-fold increase in the probability of detecting microchimerism relative to the prior trimester, 95% confidence intervals 3.2, 50.3, p<0.001. None of the women with preeclampsia, compared with 30% of matched healthy women, had microchimerism (p = 0.03)., Conclusions/significance: These results show that microchimerism from a woman's own mother is detectable in normal pregnancy and diminished in preeclampsia, supporting the previously unexplored hypothesis that MP microchimerism may be a marker reflecting healthy maternal adaptation to pregnancy.

Published

2011

16. Effect of parity on fetal and maternal microchimerism: interaction of grafts within a host?

Author

Gammill HS, Guthrie KA, Aydelotte TM, Adams Waldorf KM, and Nelson JL

Subjects

Adolescent, Adult, Aged, Chimera genetics, Cord Blood Stem Cell Transplantation, Female, HLA Antigens genetics, Humans, Male, Maternal-Fetal Exchange genetics, Middle Aged, Parity genetics, Pregnancy, Young Adult, Chimera immunology, Chimerism, Maternal-Fetal Exchange immunology, Parity immunology

Abstract

Small amounts of genetically foreign cells (microchimerism, Mc) traffic between a mother and fetus during pregnancy. Commonly, these grafts durably persist. For women, multiple naturally acquired Mc grafts can accrue, as they harbor Mc from their own mothers (maternal Mc, MMc) and subsequently acquire fetal Mc (FMc) through pregnancy. The nature of interactions between these naturally acquired grafts may inform, and be informed by, observations in transplantation, including the effect of noninherited maternal HLA antigens (NIMA) and double-unit cord blood transplantation (CBT). We asked whether FMc and MMc are impacted by the addition of new grafts as evaluated by increasing parity. Mc was identified by quantitative PCR for a nonshared polymorphism unique to the Mc source. Despite increasing sources of Mc, FMc did not increase with increasing parity. MMc concentration was significantly lower with increasing parity. The odds ratio for detection of MMc for 2 or more births compared with 1 birth was .11 (95% CI 0.03-0.42, P = .001). These observations suggest that interactions occur among naturally acquired grafts and are of interest in light of recent observations of graft-graft interaction resulting in predominance of 1 unit in double-unit CBT and the correlation of MMc with the NIMA effect.

Published

2010

17. Naturally acquired microchimerism.

Author

Gammill HS and Nelson JL

Subjects

DNA genetics, Female, Humans, Pregnancy, Time, Autoimmune Diseases genetics, Chimerism, Maternal-Fetal Exchange genetics

Abstract

Bi-directional transplacental trafficking occurs routinely during the course of normal pregnancy, from fetus to mother and from mother to fetus. In addition to a variety of cell-free substances, it is now well recognized that some cells are also exchanged. Microchimerism refers to a small number of cells (or DNA) harbored by one individual that originated in a genetically different individual. While microchimerism can be the result of iatrogenic interventions such as transplantation or transfusion, by far the most common source is naturally acquired microchimerism from maternal-fetal trafficking during pregnancy. Microchimerism is a subject of much current interest for a number of reasons. During pregnancy, fetal microchimerism can be sought from the mothers blood for the purpose of prenatal diagnosis. Moreover, studies of fetal microchimerism during pregnancy may offer insight into complications of pregnancy, such as preeclampsia, as well as insights into the pathogenesis of autoimmune diseases such as rheumatoid arthritis which usually ameliorates during pregnancy. Furthermore, it is now known that microchimerism persists decades later, both fetal microchimerism in women who have been pregnant and maternal microchimerism in her progeny. Investigation of the long-term consequences of fetal and maternal microchimerism is another exciting frontier of active study, with initial results pointing both to adverse and beneficial effects. This review will provide an overview of microchimerism during pregnancy and of current knowledge regarding long-term effects of naturally acquired fetal and maternal microchimerism.

Published

2010

18. Chimeric maternal cells with tissue-specific antigen expression and morphology are common in infant tissues.

Author

Stevens AM, Hermes HM, Kiefer MM, Rutledge JC, and Nelson JL

Subjects

Cell Differentiation, Chimera, Chromosomes, Human, X, Chromosomes, Human, Y, Female, Humans, Immunohistochemistry, In Situ Hybridization, Fluorescence, Infant, Infant, Newborn, Male, Maternal-Fetal Exchange genetics, Pregnancy, Stem Cells immunology, Chimerism embryology, Stem Cells cytology

Abstract

Maternal microchimerism (MMc) has been purported to play a role in the pathogenesis of autoimmunity, but how a small number of foreign cells could contribute to chronic, systemic inflammation has not been explained. Reports of peripheral blood cells differentiating into tissue-specific cell types may shed light on the problem in that chimeric maternal cells could act as target cells within tissues. We investigated MMc in tissues from 7 male infants. Female cells, presumed maternal, were characterized by simultaneous immunohistochemistry and fluorescence in situ hybridization for X- and Y-chromosomes. Maternal cells constituted 0.017% to 1.9% of parenchymal cells and were found in all infants in liver, pancreas, lung, kidney, bladder, skin, and spleen. Maternal cells were differentiated: maternal hepatocytes in liver, renal tubular cells in kidney, and beta-islet cells in pancreas. Maternal cells were not found in areas of tissue injury or inflammatory infiltrate. Maternal hematopoietic cells were found only in hearts from patients with neonatal lupus. Thus, differentiated maternal cells are present in multiple tissue types and occur independently of inflammation or tissue injury. Loss of tolerance to maternal parenchymal cells could lead to organ-specific "auto" inflammatory disease and elimination of maternal cells in areas of inflammation.

Published

2009

19. Naturally acquired microchimerism: for better or for worse.

Author

Nelson JL

Subjects

Female, Humans, Pregnancy, Risk Factors, Arthritis, Rheumatoid epidemiology, Arthritis, Rheumatoid genetics, Chimerism, Maternal-Fetal Exchange genetics

Published

2009

20. Case-control study of fetal microchimerism and breast cancer.

Author

Gadi VK, Malone KE, Guthrie KA, Porter PL, and Nelson JL

Subjects

Adult, Breast Neoplasms epidemiology, Breast Neoplasms pathology, Case-Control Studies, DNA, Neoplasm genetics, DNA, Neoplasm metabolism, Female, Humans, Male, Middle Aged, Neoplasm Invasiveness pathology, Polymerase Chain Reaction, Pregnancy, Prognosis, Risk Factors, Breast Neoplasms etiology, Chimerism, Fetus cytology

Abstract

Background: Prior pregnancy is known to protect against development of breast cancer. Recent studies have demonstrated that pregnancy has the capacity to establish small numbers of immunologically active fetal-derived cells in the mother, a phenomenon known as fetal microchimerism (FMc). We asked whether presence of FMc, routinely acquired during pregnancy, is a protective factor for breast cancer., Methodology/principal Findings: DNA extracts from peripheral blood specimens were obtained from a population-based case-control study of risk factors for breast cancer in women 21 to 45 years old. Specimens were tested with quantitative PCR for presence and concentrations of male DNA presumed to derive from prior pregnancies with a male fetus. Odds ratios (OR) and 95% confidence intervals (CI) were estimated with consideration of multiple established reproductive and environmental risk factors for breast cancer. FMc results were generated on 99 parous women, 54 with primary invasive breast cancer and 45 general population controls. FMc prevalence was 56% (25/45) and 26% (14/54) in controls and cases, respectively. Women harboring FMc were less likely to have had breast cancer (OR = 0.29, 95% CI 0.11-0.83; p = 0.02, adjusting for age, number of children, birth of a son, history of miscarriage, and total DNA tested). In addition, FMc concentrations were higher in controls versus cases (p = 0.01). Median concentrations were 2 (0-78) and 0 (0-374) fetal genomes/10(6) maternal genomes in controls and cases, respectively., Conclusions: Results suggest that the enigma of why some parous women are not afforded protection from breast cancer by pregnancy might in part be explained by differences in FMc. Mechanistic studies of FMc-derived protection against breast cancer are warranted.

Published

2008

21. Your cells are my cells.

Author

Nelson JL

Subjects

Autoimmune Diseases etiology, Cell Movement, Female, Fetus cytology, Humans, Immunity, Male, Maternal-Fetal Exchange, Pregnancy, Chimerism

Published

2008

22. Fetal microchimerism in women with breast cancer.

Author

Gadi VK and Nelson JL

Subjects

Adult, Aged, Breast Neoplasms genetics, Breast Neoplasms immunology, Breast Neoplasms pathology, DNA blood, Female, Humans, Male, Middle Aged, Pregnancy, Breast Neoplasms etiology, Chimerism

Abstract

Fetal microchimerism (FMc) describes long-term persistence of small numbers of fetal-derived allogeneic cells in the mother. Although FMc has been implicated as a mechanism of autoimmune disease, it may confer a beneficial effect with immune surveillance of malignant cells. We hypothesized that allogeneic FMc imparts a protective effect against breast cancer. Two observations provided a rationale for the study hypothesis. First, allogeneic cells convey risk reduction for recurrent malignancy in hematopoietic cell transplantation. Second, reduced risk of breast cancer is well recognized among parous compared with nulliparous women. As an initial test of the hypothesis, we investigated 82 women, 35 with breast cancer and 47 who were healthy, for male DNA in peripheral blood, presumed from a prior pregnancy with a male fetus. The prevalence and levels of male DNA were determined by real-time quantitative PCR for the Y chromosome-specific gene DYS14 in DNA extracted from peripheral blood mononuclear cells. FMc was found significantly more often in healthy women than women with breast cancer (43% versus 14%, respectively). Considering the absence of FMc as a risk factor, the odds ratio was 4.4 [95% confidence intervals (95% CI), 1.34-16.99; P = 0.006]. Restricting analysis to women known to had given birth to a son, the odds ratio was 5.9 (95% CI, 1.26-6.69; P = 0.01). Our findings indicate that allogeneic FMc may contribute to reduction in risk of breast cancer. Further studies are indicated and, if confirmed, extended studies to examine whether allogeneic immune surveillance from FMc is deficient in women with breast cancer.

Published

2007

23. Maternal microchimerism in peripheral blood in type 1 diabetes and pancreatic islet beta cell microchimerism.

Author

Nelson JL, Gillespie KM, Lambert NC, Stevens AM, Loubiere LS, Rutledge JC, Leisenring WM, Erickson TD, Yan Z, Mullarkey ME, Boespflug ND, Bingley PJ, and Gale EA

Subjects

Adolescent, Adult, Alleles, Case-Control Studies, Child, Child, Preschool, Female, Genotype, HLA Antigens metabolism, Humans, In Situ Hybridization, Fluorescence, Male, Mothers, Polymerase Chain Reaction, Chimerism, Diabetes Mellitus, Type 1 blood, Diabetes Mellitus, Type 1 diagnosis, Diabetes Mellitus, Type 1 genetics, Insulin-Secreting Cells metabolism

Abstract

Maternal cells have recently been found in the circulation and tissues of mothers' immune-competent children, including in adult life, and is referred to as maternal microchimerism (MMc). Whether MMc confers benefits during development or later in life or sometimes has adverse effects is unknown. Type 1 diabetes (T1D) is an autoimmune disease that primarily affects children and young adults. To identify and quantify MMc, we developed a panel of quantitative PCR assays targeting nontransmitted, nonshared maternal-specific HLA alleles. MMc was assayed in peripheral blood from 172 individuals, 94 with T1D, 54 unaffected siblings, and 24 unrelated healthy subjects. MMc levels, expressed as the genome equivalent per 100,000 proband cells, were significantly higher in T1D patients than unaffected siblings and healthy subjects. Medians and ranges, respectively, were 0.09 (0-530), 0 (0-153), and 0 (0-7.9). Differences between groups were evident irrespective of HLA genotypes. However, for patients with the T1D-associated DQB1*0302-DRB1*04 haplotype, MMc was found more often when the haplotype was paternally (70%) rather than maternally transmitted (14%). In other studies, we looked for female islet beta cells in four male pancreases from autopsies, one from a T1D patient, employing FISH for X and Y chromosomes with concomitant CD45 and beta cell insulin staining. Female islet beta cells (presumed maternal) formed 0.39-0.96% of the total, whereas female hematopoietic cells were very rare. Thus, T1D patients have higher levels of MMc in their circulation than unaffected siblings and healthy individuals, and MMc contributes to islet beta cells in a mother's progeny.

Published

2007

24. Maternal microchimerism in healthy adults in lymphocytes, monocyte/macrophages and NK cells.

Author

Loubière LS, Lambert NC, Flinn LJ, Erickson TD, Yan Z, Guthrie KA, Vickers KT, and Nelson JL

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Antigens, CD analysis, Child, Child, Preschool, Chimera genetics, Chromosomes, Human, Y, DNA blood, Female, Flow Cytometry, HLA Antigens blood, HLA Antigens genetics, Humans, Infant, Killer Cells, Natural cytology, Lymphocytes cytology, Macrophages cytology, Maternal-Fetal Exchange genetics, Middle Aged, Monocytes cytology, Pregnancy, Chimera immunology, Chimerism, Killer Cells, Natural immunology, Lymphocytes immunology, Macrophages immunology, Maternal-Fetal Exchange immunology, Monocytes immunology

Abstract

During pregnancy some maternal cells reach the fetal circulation. Microchimerism (Mc) refers to low levels of genetically disparate cells or DNA. Maternal Mc has recently been found in the peripheral blood of healthy adults. We asked whether healthy women have maternal Mc in T and B lymphocytes, monocyte/macrophages and NK cells and, if so, at what levels. Cellular subsets were isolated after fluorescence activated cell sorting. A panel of HLA-specific real-time quantitative PCR assays was employed targeting maternal-specific HLA sequences. Maternal Mc was expressed as the genome equivalent (gEq) number of microchimeric cells per 100,000 proband cells. Thirty-one healthy adult women probands were studied. Overall 39% (12/31) of probands had maternal Mc in at least one cellular subset. Maternal Mc was found in T lymphocytes in 25% (7/28) and B lymphocytes in 14% (3/21) of probands. Maternal Mc levels ranged from 0.9 to 25.6 and 0.9 to 25.3 gEq/100,000 in T and B lymphocytes, respectively. Monocyte/macrophages had maternal Mc in 16% (4/25) and NK cells in 28% (5/18) of probands with levels from 0.3 to 36 and 1.8 to 3.2 gEq/100,000, respectively. When compared to fetal Mc, as assessed by quantification of male DNA in women with sons, maternal Mc was substantially less prevalent in all cellular subsets; fetal Mc prevalence in T and B lymphocytes, monocyte/macrophages and NK cells was 58, 75, 50 and 62% (P=0.01, P=0.005, P=0.04, P=0.05) respectively. In summary, maternal Mc was identified among lymphoid and myeloid compartments of peripheral blood in healthy adult women. Maternal Mc was less frequent than fetal Mc in all cellular subsets tested. Studies are needed to investigate the immunological effects and function of maternal Mc and to explore whether maternal Mc in cellular subsets has biological effects on her progeny.

Published

2006

25. Male microchimerism in women without sons: quantitative assessment and correlation with pregnancy history.

Author

Yan Z, Lambert NC, Guthrie KA, Porter AJ, Loubiere LS, Madeleine MM, Stevens AM, Hermes HM, and Nelson JL

Subjects

Abortion, Induced, Abortion, Spontaneous, Adult, Arthritis, Rheumatoid blood, DNA blood, Female, Gravidity, Humans, Male, Middle Aged, Polymerase Chain Reaction, Pregnancy, Arthritis, Rheumatoid genetics, Chimerism, Chromosomes, Human, Y, Leukocytes, Mononuclear physiology

Abstract

Purpose: Fetal microchimerism, derived from fetal cells that persist after pregnancy, is usually evaluated by tests for male microchimerism in women who gave birth to sons. We investigated male microchimerism in women without sons and examined correlation with prior pregnancy history. Immunologic consequences of microchimerism are unknown. We studied healthy women and women with rheumatoid arthritis (RA)., Methods: Y-chromosome-specific real-time quantitative polymerase chain reaction was used to test peripheral blood mononuclear cells of 120 women (49 healthy and 71 with RA). Results were expressed as the number of male cells that would be equivalent to the total amount of male DNA detected within a sample containing the equivalent of 100000 female cells., Results: Male microchimerism was found in 21% of women overall. Healthy women and women with RA did not significantly differ (24% vs 18%). Results ranged from the DNA equivalent of 0 to 20.7 male cells per 100000 female cells. Women were categorized into 4 groups according to pregnancy history. Group A had only daughters (n = 26), Group B had spontaneous abortions (n = 23), Group C had induced abortions (n = 23), and Group D were nulligravid (n = 48). Male microchimerism prevalence was significantly greater in Group C than other groups (8%, 22%, 57%, 10%, respectively). Levels were also significantly higher in the induced abortion group., Conclusions: Male microchimerism was not infrequent in women without sons. Besides known pregnancies, other possible sources of male microchimerism include unrecognized spontaneous abortion, vanished male twin, an older brother transferred by the maternal circulation, or sexual intercourse. Male microchimerism was significantly more frequent and levels were higher in women with induced abortion than in women with other pregnancy histories. Further studies are needed to determine specific origins of male microchimerism in women.

Published

2005

26. Microchimerism in cord blood: Mother as anticancer drug

Author

Burlingham, William J. and Nelson, J. Lee

Published

2012

27. Maternal microchimerism in peripheral blood in type 1 diabetes and pancreatic islet β cell microchimerism.

Author

Nelson, J. Lee, Gillespie4, Kathleen M., Lambert, Nathalie C., Stevens, Anne M., Loubiere, Laurence S., Rutledge, Joe C., Leisenring, Wendy M., Erickson, Timothy D., Zhen Yan, Mullarkey, Meghan E., Boespflug, Nick D., Bingley, Polly J., and Gale, Edwin A. M.

Subjects

DIABETES, ISLANDS of Langerhans, CELLS, IMMUNOCOMPETENT cells, AUTOIMMUNE diseases, IMMUNOLOGIC diseases

Abstract

Maternal cells have recently been found in the circulation and tissues of mothers' immune-competent children, including in adult life, and is referred to as maternal microchimerism (MMc). Whether MMc confers benefits during development or later in life or sometimes has adverse effects is unknown. Type 1 diabetes (T1D) is an autoimmune disease that primarily affects children and young adults. To identify and quantify MMc, we developed a panel of quantitative PCR assays targeting nontransmitted, nonshared maternal-specific HIA alleles. MMc was assayed in peripheral blood from 172 individuals, 94 with T1D, 54 unaffected siblings, and 24 unrelated healthy subjects. MMc levels, expressed as the genome equivalent per 100,000 proband cells, were significantly higher in T1D patients than unaffected siblings and healthy subjects. Medians and ranges, respectively, were 0.09 (0-530), 0 (0-153), and 0 (0-7.9). Differences between groups were evident irrespective of HLA genotypes. However, for patients with the T1D-associated DQB1*0302*DRB1*04 haplotype, MMc was found more often when the haplotype was paternally (70%) rather than maternally transmitted (14%). In other studies, we looked for female islet fi cells in four male pancreases from autopsies, one from a T1D patient, employing FISH for X and V chromosomes with concomitant CD45 and β cell insulin staining. Female islet βcells (presumed maternal) formed 0.39-0.96% of the total, whereas female hematopoietic cells were very rare. Thus, T1D patients have higher levels of MMc in their circulation than unaffected siblings and healthy individuals, and MMc contributes to islet β cells in a mother's progeny. [ABSTRACT FROM AUTHOR]

Published

2007

28. Maternal microchimerism is prevalent in cord blood in memory T cells and other cell subsets, and persists post-transplant.

Author

Kanaan, Sami B., Gammill, Hilary S., Harrington, Whitney E., De Rosa, Stephen C., Stevenson, Philip A., Forsyth, Alexandra M., Allen, Judy, Cousin, Emma, van Besien, Koen, Delaney, Colleen S., and Nelson, J. Lee

Subjects

CORD blood transplantation, CHIMERISM, LEUKEMIA, CANCER relapse, T cells

Abstract

Among reported advantages of umbilical cord blood (CB) in transplantation is lower leukemia relapse probability. Underlying cellular mechanisms of graft-vs.-leukemia (GVL) are thought to include a prominent role for T cells. Cells of the CB's mother, maternal microchimerism (MMc), were recently strongly, but indirectly, implicated in this GVL benefit. We assayed MMc directly and hypothesized benefit accrues from CB maternal T cells. MMc was quantified in 51 CBs and, within memory T, naïve T, B, NK cells, and monocytes in 27 CBs. Polymorphism-specific quantitative-PCR assays targeted maternal genotypes non-shared with CBs. Overall MMc was common and often at substantial levels. It was present in 52.9% of CB and in 33.3–55.6% of tested subsets. Remarkably, MMc quantities were greater in memory T cells than other subsets (p< 0.001). Expressed as genome equivalents (gEq) per 105total gEq tested (gEq/105), memory T cell MMc averaged 850.2 gEq/105, while other subset mean quantities were 13.8–30.1 gEq/105. After adjustment for proportionality in CB, MMc remained 6–17 times greater in memory T, and 3–9 times greater in naïve T, vs. non-T-cell subsets. Further, CB-origin MMc was detectedin vivoin a patient up to 6 mo post-transplantation, including among T cells. Overall, results revealed levels and phenotypes of CB MMc with potential relevance to CB transplantation and, more broadly, to offspring health. [ABSTRACT FROM PUBLISHER]

Published

2017

29. Persistence of the losing cord blood unit following double cord blood transplantation: finding the unseen.

Author

Milano, Filippo, Gammill, Hilary, Oliver, David C., Kanaan, Sami B., Nelson, J. Lee, and Delaney, Colleen

Subjects

*CORD blood transplantation, *CHIMERISM, *SHORT tandem repeat analysis

Published

2017