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1. Time Domains of Hypoxia Responses and -Omics Insights.

Author

Yu, James J, Non, Amy L, Heinrich, Erica C, Gu, Wanjun, Alcock, Joe, Moya, Esteban A, Lawrence, Elijah S, Tift, Michael S, O'Brien, Katie A, Storz, Jay F, Signore, Anthony V, Khudyakov, Jane I, Milsom, William K, Wilson, Sean M, Beall, Cynthia M, Villafuerte, Francisco C, Stobdan, Tsering, Julian, Colleen G, Moore, Lorna G, Fuster, Mark M, Stokes, Jennifer A, Milner, Richard, West, John B, Zhang, Jiao, Shyy, John Y, Childebayeva, Ainash, Vázquez-Medina, José Pablo, Pham, Luu V, Mesarwi, Omar A, Hall, James E, Cheviron, Zachary A, Sieker, Jeremy, Blood, Arlin B, Yuan, Jason X, Scott, Graham R, Rana, Brinda K, Ponganis, Paul J, Malhotra, Atul, Powell, Frank L, and Simonson, Tatum S

Subjects
adaptation, high altitude, hypoxia, integrative physiology, oxygen, Lung, Sleep Research, Perinatal Period - Conditions Originating in Perinatal Period, Pediatric, Generic health relevance, Physiology, Medical Physiology, Psychology
Abstract

The ability to respond rapidly to changes in oxygen tension is critical for many forms of life. Challenges to oxygen homeostasis, specifically in the contexts of evolutionary biology and biomedicine, provide important insights into mechanisms of hypoxia adaptation and tolerance. Here we synthesize findings across varying time domains of hypoxia in terms of oxygen delivery, ranging from early animal to modern human evolution and examine the potential impacts of environmental and clinical challenges through emerging multi-omics approaches. We discuss how diverse animal species have adapted to hypoxic environments, how humans vary in their responses to hypoxia (i.e., in the context of high-altitude exposure, cardiopulmonary disease, and sleep apnea), and how findings from each of these fields inform the other and lead to promising new directions in basic and clinical hypoxia research.

Published
2022

3. High altitude regulates the expression of AMPK pathways in human placenta.

Author

Lorca, Ramón A, Houck, Julie A, Laurent, Louise C, Matarazzo, Christopher J, Baker, Kori, Horii, Mariko, Nelson, Katharine K, Bales, Elise S, Euser, Anna G, Parast, Mana M, Moore, Lorna G, and Julian, Colleen G

Subjects
AMPK, High altitude, Hypoxia, Placenta, Pregnancy, Obstetrics & Reproductive Medicine, Biochemistry and Cell Biology, Clinical Sciences, Paediatrics and Reproductive Medicine
Abstract

IntroductionHigh-altitude (>2500 m) residence augments the risk of intrauterine growth restriction (IUGR) and preeclampsia likely due, in part, to uteroplacental hypoperfusion. Previous genomic and transcriptomic studies in humans and functional studies in mice and humans suggest a role for AMP-activated protein kinase (AMPK) pathway in protecting against hypoxia-associated IUGR. AMPK is a metabolic sensor activated by hypoxia that is ubiquitously expressed in vascular beds and placenta.MethodsWe measured gene expression and protein levels of AMPK and its upstream regulators and downstream targets in human placentas from high (>2500 m) vs. moderate (~1700 m) and low (~100 m) altitude.ResultsWe found that phosphorylated AMPK protein levels and its downstream target TSC2 were increased in placentas from high and moderate vs. low altitude, whereas the phosphorylated form of the downstream target translation repressor protein 4E-BP1 was increased in high compared to moderate as well as low altitude placentas. Mean birth weights progressively fell with increasing altitude but no infants, by study design, were clinically growth-restricted. Gene expression analysis showed moderate increases in PRKAG2, encoding the AMPK γ2 subunit, and mechanistic target of rapamycin, MTOR, expression.DiscussionThese results highlight a differential regulation of placental AMPK pathway activation in women residing at low, moderate or high altitude during pregnancy, suggesting AMPK may be serving as a metabolic regulator for integrating hypoxic stimuli with placental function.

Published
2021

4. Uteroplacental Ischemia Is Associated with Increased PAPP-A2

Author

Lamale-Smith, Leah M, Gumina, Diane L, Kramer, Anita W, Browne, Vaughn A, Toledo-Jaldin, Lilian, Julian, Colleen G, Winn, Virginia D, and Moore, Lorna G

Subjects
Reproductive Medicine, Biomedical and Clinical Sciences, Contraception/Reproduction, Pediatric, Clinical Research, Cardiovascular, Perinatal Period - Conditions Originating in Perinatal Period, Reproductive health and childbirth, Adult, Altitude, Cohort Studies, Female, Humans, Placenta, Pre-Eclampsia, Pregnancy, Pregnancy-Associated Plasma Protein-A, Ultrasonography, Doppler, Uterine Artery, Uterus, Vascular Resistance, Young Adult, High altitude, Hypoxia, PAPP-A2, Pappalysin-2, Preeclampsia, Uterine artery pulsatility index and blood flow, Paediatrics and Reproductive Medicine, Obstetrics & Reproductive Medicine, Reproductive medicine, Midwifery
Abstract

Residence at high altitude (> 2500 m) has been associated with an increased frequency of preeclampsia. Pappalysin-2 (PAPP-A2) is an insulin-like growth factor binding protein-5 (IGFBP-5) protease that is elevated in preeclampsia, and up-regulated by hypoxia in placental explants. The relationships between PAPP-A2, altitude, and indices of uteroplacental ischemia are unknown. We aimed to evaluate the association of altitude, preeclampsia, and uterine artery flow or vascular resistance with PAPP-A2 levels. PAPP-A2, uterine artery diameter, volumetric blood flow, and pulsatility indices were measured longitudinally in normotensive Andean women residing at low or high altitudes in Bolivia and in a separate Andean high-altitude cohort with or without preeclampsia. PAPP-A2 levels increased with advancing gestation, with the rise tending to be greater at high compared to low altitude, and higher in early-onset preeclamptic compared to normotensive women at high altitude. Uterine artery blood flow was markedly lower and pulsatility index higher in early-onset preeclamptic normotensive women compared to normotensive women. PAPP-A2 was unrelated to uterine artery pulsatility index in normotensive women but positively correlated in the early-onset preeclampsia cases. We concluded that PAPP-A2 is elevated at high altitude and especially in cases of early-onset preeclampsia with Doppler indices of uteroplacental ischemia.

Published
2020

5. ACOG and local diagnostic criteria for hypertensive disorders of pregnancy (HDP) in La Paz-El Alto, Bolivia: A retrospective case-control study

Author

Lazo-Vega, Litzi, Toledo-Jaldin, Lilian, Badner, Abraham, Barriga-Vera, José Luis, Castro-Monrroy, Melany, Euser, Anna G., Larrea-Alvarado, Alison, Lawrence, Ian, Mérida, Carola, Mizutani, Rodrigo, Pérez, Yuri, Rocabado, Sebastian, Vargas, Manfredo, Vasan, Vikram, Julian, Colleen G., and Moore, Lorna G.

Published
2022
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6. Maternal AMPK pathway activation with uterine artery blood flow and fetal growth maintenance during hypoxia.

Author

Moore, Lorna G., Lorca, Ramón A., Gumina, Diane L., Wesolowski, Stephanie R., Reisz, Julie A., Cioffi-Ragan, Darleen, Houck, Julie A., Banerji, Sarah, Euser, Anna G., D'Alessandro, Angelo, Hobbins, John C., and Julian, Colleen G.

Subjects
*FETAL growth retardation, *LOW birth weight, *ADENOSINE monophosphate, *BLOOD flow, *AMP-activated protein kinases
Abstract

High-altitude (HA) hypoxia lowers uterine artery (UtA) blood flow during pregnancy and birth weight. Adenosine monophosphate kinase (AMPK) activation has selective, uteroplacental vasodilator effects that lessen hypoxia-associated birth weight reductions. In this study, we determined the relationship between AMPK-pathway gene expression and metabolites in the maternal circulation during HA pregnancy as well as with the maintenance of UtA blood flow and birth weight at HA. Residents at HA (2,793 m) versus low altitude (LA; 1,640 m) had smaller UtA diameters at weeks 20 and 34, lower UtA blood flow at week 20, and lower birth weight babies. At week 34, women residing at HA versus women residing at LA had decreased expression of upstream and downstream AMPK-pathway genes. Expression of the α1-AMPK catalytic subunit, PRKAA1, correlated positively with UtA diameter and blood flow at weeks 20 (HA) and 34 (LA). Downstream AMPK-pathway gene expression positively correlated with week 20 fetal biometry at both altitudes and with UtA diameter and birth weight at LA. Reduced gene expression of AMPK activators and downstream targets in women residing at HA versus women residing at LA, together with positive correlations between PRKAA1 gene expression, UtA diameter, and blood flow suggest that greater sensitivity to AMPK activation at midgestation at HA may help offset later depressant effects of hypoxia on fetal growth. NEW & NOTEWORTHY: Fetal growth restriction (FGR) is increased and uterine artery (UtA) blood flow is lower at high altitudes (HA) but not all HA pregnancies have FGR. Here we show that greater UtA diameter and blood flow at week 20 are positively correlated with higher expression of the gene encoding the α1-catalytic subunit of AMP protein kinase, PRKAA1, suggesting that increased AMPK activation may help to prevent the detrimental effects of chronic hypoxia on fetal growth. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Natural Selection on Genes Related to Cardiovascular Health in High-Altitude Adapted Andeans

Author

Crawford, Jacob E, Amaru, Ricardo, Song, Jihyun, Julian, Colleen G, Racimo, Fernando, Cheng, Jade Yu, Guo, Xiuqing, Yao, Jie, Ambale-Venkatesh, Bharath, Lima, João A, Rotter, Jerome I, Stehlik, Josef, Moore, Lorna G, Prchal, Josef T, and Nielsen, Rasmus

Subjects
Biological Sciences, Genetics, Human Genome, Cardiovascular, Lung, Good Health and Well Being, Adaptation, Physiological, Aged, Aged, 80 and over, Altitude, Altitude Sickness, Cardiovascular System, Female, Genome-Wide Association Study, Haplotypes, Heart Failure, Humans, Hypoxia, Male, Middle Aged, Polycythemia, Polymorphism, Single Nucleotide, Selection, Genetic, Andean, Aymara, adaptation, high altitude, hypoxia, natural selection, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

The increase in red blood cell mass (polycythemia) due to the reduced oxygen availability (hypoxia) of residence at high altitude or other conditions is generally thought to be beneficial in terms of increasing tissue oxygen supply. However, the extreme polycythemia and accompanying increased mortality due to heart failure in chronic mountain sickness most likely reduces fitness. Tibetan highlanders have adapted to high altitude, possibly in part via the selection of genetic variants associated with reduced polycythemic response to hypoxia. In contrast, high-altitude-adapted Quechua- and Aymara-speaking inhabitants of the Andean Altiplano are not protected from high-altitude polycythemia in the same way, yet they exhibit other adaptive features for which the genetic underpinnings remain obscure. Here, we used whole-genome sequencing to scan high-altitude Andeans for signals of selection. The genes showing the strongest evidence of selection-including BRINP3, NOS2, and TBX5-are associated with cardiovascular development and function but are not in the response-to-hypoxia pathway. Using association mapping, we demonstrated that the haplotypes under selection are associated with phenotypic variations related to cardiovascular health. We hypothesize that selection in response to hypoxia in Andeans could have vascular effects and could serve to mitigate the deleterious effects of polycythemia rather than reduce polycythemia itself.

Published
2017

10. Genomic Selection Signals in Andean Highlanders Reveal Adaptive Placental Metabolic Phenotypes That Are Disrupted in Preeclampsia

Author

O’Brien, Katie A., primary, Gu, Wanjun, additional, Houck, Julie A., additional, Holzner, Lorenz M.W., additional, Wa Yung, Hong, additional, Armstrong, Jenna L., additional, Sowton, Alice P., additional, Baxter, Ruby, additional, Darwin, Paula M., additional, Toledo-Jaldin, Lilian, additional, Lazo-Vega, Litzi, additional, Moreno-Aramayo, Any, additional, Miranda-Garrido, Valquiria, additional, Shortt, Jonathan A., additional, Matarazzo, Christopher J., additional, Yasini, Hussna, additional, Burton, Graham J., additional, Moore, Lorna G., additional, Simonson, Tatum S., additional, Murray, Andrew J., additional, and Julian, Colleen Glyde, additional

Published
2023
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11. Altered placental ion channel gene expression in preeclamptic high-altitude pregnancies

Author

Julian, Colleen G., primary, Houck, Julie A., additional, Fallahi, Sahand, additional, Lazo-Vega, Litzi, additional, Matarazzo, Christopher J., additional, Diamond, Breea, additional, Miranda-Garrido, Valquiria, additional, Krause, Bernardo J., additional, Moore, Lorna G., additional, Shortt, Jonathan A., additional, Toledo-Jaldin, Lilian, additional, and Lorca, Ramón A., additional

Published
2023
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12. High Altitude Continues to Reduce Birth Weights in Colorado

Author

Bailey, Beth A., Donnelly, Meghan, Bol, Kirk, Moore, Lorna G., and Julian, Colleen G.

Subjects
Birth weight, Low -- Statistics, Altitudes -- Influence, Health care industry
Abstract

Objectives Colorado's relatively high altitudes have been reported to lower birth weight but the most recent studies were conducted 20 years ago. Since then, the accuracy for assigning altitude of residence has been improved with the use of geocoding, and recommendations for pregnancy weight gain have changed. We therefore sought to determine whether currently, residence at high altitude ([greater than or equal to] 2500 m, 8250 ft) lowers birth weight in Colorado. Methods Birth certificate data for all live births (n = 670,017) to Colorado residents from 2007 to 2016 were obtained from the Colorado Department of Public Health and Environment. Geocoded altitude of maternal residence for the current birth was assigned to each birth record. Linear and logistic regression models were used to examine the effects of altitude on birth weight or low birth weight (< 2500 g) while controlling for other factors affecting birth weight, including pregnancy weight gain. Results Compared to low altitude, infants born at high altitude weighed 118 g less and were more often low birth weight (8.8% vs. 11.7%, p < 0.05). After accounting for other factors influencing birth weight, high altitude reduced birth weight by 101 g and increased the risk of low birth weight by 27%. The only factors with larger impacts on birth weight were hypertensive disorders of pregnancy and cigarette use during pregnancy. Conclusions for Practice High altitude remains an important determinant of elevated LBW rates in Colorado, and likely contributes to Colorado's comparative resistance towards meeting the Healthy People 2010/2020 nationwide goal to reduce the low birth weight rate to 7.2% by 2020., Author(s): Beth A. Bailey [sup.1] , Meghan Donnelly [sup.1] [sup.2] , Kirk Bol [sup.3] , Lorna G. Moore [sup.4] , Colleen G. Julian [sup.5] Author Affiliations: (Aff1) grid.430503.1, 0000 0001 [...]

Published
2019
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13. Mitochondrial DNA variant associated with Leber hereditary optic neuropathy and high-altitude Tibetans

Author

Ji, Fuyun, Sharpley, Mark S., Derbeneva, Olga, Alves, Leonardo Scherer, Qian, Pin, Wang, Yaoli, Chalkia, Dimitra, Lvova, Maria, Xu, Jiancheng, Yao, Wei, Simon, Mariella, Platt, Julia, Xu, Shiqin, Angelin, Alessia, Davila, Antonio, Huang, Taosheng, Wang, Ping H., Chuang, Lee-Ming, Moore, Lorna G., Qian, Guisheng, and Wallace, Douglas C.

Abstract

The distinction between mild pathogenic mtDNA mutations and population polymorphisms can be ambiguous because both are homoplasmic, alter conserved functions, and correlate with disease. One possible explanation for this ambiguity is that the same variant may have different consequences in different contexts. The NADH dehydrogenase subunit 1 (ND1) nucleotide 3394 T > C (Y30H) variant is such a case. This variant has been associated with Leber hereditary optic neuropathy and it reduces complex I activity and cellular respiration between 7% and 28% on the Asian B4c and F1 haplogroup backgrounds. However, complex I activity between B4c and F1 mtDNAs, which harbor the common 3394T allele, can also differ by 30%. In Asia, the 3394C variant is most commonly associated with the M9 haplogroup, which is rare at low elevations but increases in frequency with elevation to an average of 25% of the Tibetan mtDNAs (odds ratio = 23.7). In high-altitude Tibetan and Indian populations, the 3394C variant occurs on five different macrohaplogroup M haplogroup backgrounds and is enriched on the M9 background in Tibet and the C4a4 background on the Indian Deccan Plateau (odds ratio = 21.9). When present on the M9 background, the 3394C variant is associated with a complex I activity that is equal to or higher than that of the 3394T variant on the B4c and F1 backgrounds. Hence, the 3394C variant can either be deleterious or beneficial depending on its haplogroup and environmental context. Thus, this mtDNA variant fulfills the criteria for a common variant that predisposes to a “complex” disease.

Published
2012

14. Development of a panel of genome-wide ancestry informative markers to study admixture throughout the Americas.

Author

Galanter, Joshua Mark, Fernandez-Lopez, Juan Carlos, Gignoux, Christopher R, Barnholtz-Sloan, Jill, Fernandez-Rozadilla, Ceres, Via, Marc, Hidalgo-Miranda, Alfredo, Contreras, Alejandra V, Figueroa, Laura Uribe, Raska, Paola, Jimenez-Sanchez, Gerardo, Zolezzi, Irma Silva, Torres, Maria, Ponte, Clara Ruiz, Ruiz, Yarimar, Salas, Antonio, Nguyen, Elizabeth, Eng, Celeste, Borjas, Lisbeth, Zabala, William, Barreto, Guillermo, González, Fernando Rondón, Ibarra, Adriana, Taboada, Patricia, Porras, Liliana, Moreno, Fabián, Bigham, Abigail, Gutierrez, Gerardo, Brutsaert, Tom, León-Velarde, Fabiola, Moore, Lorna G, Vargas, Enrique, Cruz, Miguel, Escobedo, Jorge, Rodriguez-Santana, José, Rodriguez-Cintrón, William, Chapela, Rocio, Ford, Jean G, Bustamante, Carlos, Seminara, Daniela, Shriver, Mark, Ziv, Elad, Burchard, Esteban Gonzalez, Haile, Robert, Parra, Esteban, Carracedo, Angel, and LACE Consortium

Subjects
LACE Consortium, Humans, Genetic Markers, Population Dynamics, Genome, Human, African Continental Ancestry Group, American Native Continental Ancestry Group, European Continental Ancestry Group, Latin America, Genome, Human, Genetics, Developmental Biology
Abstract

Most individuals throughout the Americas are admixed descendants of Native American, European, and African ancestors. Complex historical factors have resulted in varying proportions of ancestral contributions between individuals within and among ethnic groups. We developed a panel of 446 ancestry informative markers (AIMs) optimized to estimate ancestral proportions in individuals and populations throughout Latin America. We used genome-wide data from 953 individuals from diverse African, European, and Native American populations to select AIMs optimized for each of the three main continental populations that form the basis of modern Latin American populations. We selected markers on the basis of locus-specific branch length to be informative, well distributed throughout the genome, capable of being genotyped on widely available commercial platforms, and applicable throughout the Americas by minimizing within-continent heterogeneity. We then validated the panel in samples from four admixed populations by comparing ancestry estimates based on the AIMs panel to estimates based on genome-wide association study (GWAS) data. The panel provided balanced discriminatory power among the three ancestral populations and accurate estimates of individual ancestry proportions (R² > 0.9 for ancestral components with significant between-subject variance). Finally, we genotyped samples from 18 populations from Latin America using the AIMs panel and estimated variability in ancestry within and between these populations. This panel and its reference genotype information will be useful resources to explore population history of admixture in Latin America and to correct for the potential effects of population stratification in admixed samples in the region.

Published
2012

17. Genomic Selection Signals in Andean Highlanders Reveal Adaptive Placental Metabolic Phenotypes That Are Disrupted in Preeclampsia.

Author

O'Brien, Katie A., Wanjun Gu, Houck, Julie A., Holzner, Lorenz M. W., Hong Wa Yung, Armstrong, Jenna L., Sowton, Alice P., Baxter, Ruby, Darwin, Paula M., Toledo-Jaldin, Lilian, Lazo-Vega, Litzi, Moreno-Aramayo, Any Elena, Miranda-Garrido, Valquiria, Shortt, Jonathan A., Matarazzo, Christopher J., Yasini, Hussna, Burton, Graham J., Moore, Lorna G., Simonson, Tatum S., and Murray, Andrew J.

Abstract

BACKGROUND: The chronic hypoxia of high-altitude residence poses challenges for tissue oxygen supply and metabolism. Exposure to high altitude during pregnancy increases the incidence of hypertensive disorders of pregnancy and fetal growth restriction and alters placental metabolism. High-altitude ancestry protects against altitude-associated fetal growth restriction, indicating hypoxia tolerance that is genetic in nature. Yet, not all babies are protected and placental pathologies associated with fetal growth restriction occur in some Andean highlanders. METHODS: We examined placental metabolic function in 79 Andeans (18-45 years; 39 preeclamptic and 40 normotensive) living in La Paz, Bolivia (3600-4100 m) delivered by unlabored Cesarean section. Using a selection-nominated approach, we examined links between putatively adaptive genetic variation and phenotypes related to oxygen delivery or placental metabolism. RESULTS: Mitochondrial oxidative capacity was associated with fetal oxygen delivery in normotensive but not preeclamptic placenta and was also suppressed in term preeclamptic pregnancy. Maternal haplotypes in or within 200 kb of selection-nominated genes were associated with lower placental mitochondrial respiratory capacity (PTPRD [protein tyrosine phosphatase receptor-δ]), lower maternal plasma erythropoietin (CPT2 [carnitine palmitoyl transferase 2], proopiomelanocortin, and DNMT3 [DNA methyltransferase 3]), and lower VEGF (vascular endothelial growth factor) in umbilical venous plasma (TBX5 [T-box transcription factor 5]). A fetal haplotype within 200 kb of CPT2 was associated with increased placental mitochondrial complex II capacity, placental nitrotyrosine, and GLUT4 (glucose transporter type 4) protein expression. CONCLUSIONS: Our findings reveal novel associations between putatively adaptive gene regions and phenotypes linked to oxygen delivery and placental metabolic function in highland Andeans, suggesting that such effects may be of genetic origin. Our findings also demonstrate maladaptive metabolic mechanisms in the context of preeclampsia, including dysregulation of placental oxygen consumption. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Vascular Disorders of Pregnancy Increase Susceptibility to Neonatal Pulmonary Hypertension in High-Altitude Populations

Author

Heath-Freudenthal, Alexandra, Toledo-Jaldin, Lilian, Von Alvensleben, Inge, Lazo-Vega, Litzi, Mizutani, Rodrigo, Stalker, Margaret, Yasini, Hussna, Mendizabal, Fanny, Dorado Madera, Jesus, Mundo, William, Castro-Monrroy, Melany, Houck, Julie A, Moreno-Aramayo, Any, Miranda-Garrido, Valquiria, Su, Emily J, Giussani, Dino A, Abman, Steven H, Moore, Lorna G, Julian, Colleen G, Mizutani, Rodrigo [0000-0002-8434-5895], Stalker, Margaret [0000-0001-9493-7221], Mendizabal, Fanny [0000-0003-4098-9944], Mundo, William [0000-0002-0043-7419], Su, Emily J [0000-0003-3739-9396], Giussani, Dino A [0000-0002-1308-1204], Abman, Steven H [0000-0002-7292-2085], Julian, Colleen G [0000-0001-8857-0152], and Apollo - University of Cambridge Repository

Subjects
Vascular Endothelial Growth Factor A, Fetal Growth Retardation, Vascular Endothelial Growth Factor Receptor-1, Vascular Endothelial Growth Factors, Altitude, Hypertension, Pulmonary, Infant, Newborn, Fetal Hypoxia, Article, fetal growth restriction, Pre-Eclampsia, Pregnancy, Internal Medicine, Humans, Female, Prospective Studies, Placenta Growth Factor, Retrospective Studies
Abstract

Background: Preeclampsia and fetal growth restriction increase cardiopulmonary disease risk for affected offspring and occur more frequently at high-altitude (≥2500 m). Retrospective studies indicate that birth to a preeclampsia woman at high altitude increases the risk of pulmonary hypertension (PH) in later life. This prospective study asked whether preeclampsia with or without fetal growth restriction exaggerated fetal hypoxia and impaired angiogenesis in the fetal lung, leading to neonatal cardiopulmonary circulation abnormalities and neonatal or infantile PH. Methods and Results: We studied 79 maternal-infant pairs (39 preeclampsia, 40 controls) in Bolivia (3600–4100 m). Cord blood erythropoietin, hemoglobin, and umbilical artery and venous blood gases were measured as indices of fetal hypoxia. Maternal and cord plasma levels of angiogenic (VEGF [vascular endothelial growth factor]) and antiangiogenic (sFlt1 [soluble fms-like tyrosine kinase]) factors were determined. Postnatal echocardiography (1 week and 6–9 months) assessed pulmonary hemodynamics and PH. Preeclampsia augmented fetal hypoxia and increased the risk of PH in the neonate but not later in infancy. Pulmonary abnormalities were confined to preeclampsia cases with fetal growth restriction. Maternal and fetal plasma sFlt1 levels were higher in preeclampsia than controls and positively associated with PH. Conclusions: The effect of preeclampsia with fetal growth restriction to increase fetal hypoxia and sFlt1 levels may impede normal development of the pulmonary circulation at high altitude, leading to adverse neonatal pulmonary vascular outcomes. Our observations highlight important temporal windows for the prevention of pulmonary vascular disease among babies born to highland residents or those with exaggerated hypoxia in utero or newborn life.

Published
2022

21. Is Maternal Cardiovascular Performance Impaired in Altitude-Associated Fetal Growth Restriction?

Author

Mundo, William, primary, Toledo-Jaldin, Lilian, additional, Heath-Freudenthal, Alexandrea, additional, Huayacho, Jaime, additional, Lazo-Vega, Litzi, additional, Larrea-Alvarado, Alison, additional, Miranda-Garrido, Valquiria, additional, Mizutani, Rodrigo, additional, Moore, Lorna G., additional, Moreno-Aramayo, Any, additional, Gomez, Richard, additional, Gutierrez, Patricio, additional, and Julian, Colleen G., additional

Published
2022
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22. Gain-of-function EGLN1 prolyl hydroxylase (PHD2 D4E:C127S) in combination with EPAS1 (HIF-2α) polymorphism lowers hemoglobin concentration in Tibetan highlanders

Author

Tashi, Tsewang, Scott Reading, N., Wuren, Tanna, Zhang, Xu, Moore, Lorna G., Hu, Hao, Tang, Feng, Shestakova, Anna, Lorenzo, Felipe, Burjanivova, Tatiana, Koul, Parvaiz, Guchhait, Prasenjit, Wittwer, Carl T., Julian, Colleen G., Shah, Binal, Huff, Chad D., Gordeuk, Victor R., Prchal, Josef T., and Ge, RiLi

Published
2017
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29. Time Domains of Hypoxia Responses and -Omics Insights

Author

Yu, James J., primary, Non, Amy L., additional, Heinrich, Erica C., additional, Gu, Wanjun, additional, Alcock, Joe, additional, Moya, Esteban A., additional, Lawrence, Elijah S., additional, Tift, Michael S., additional, O'Brien, Katie A., additional, Storz, Jay F., additional, Signore, Anthony V., additional, Khudyakov, Jane I., additional, Milsom, William K., additional, Wilson, Sean M., additional, Beall, Cynthia M., additional, Villafuerte, Francisco C., additional, Stobdan, Tsering, additional, Julian, Colleen G., additional, Moore, Lorna G., additional, Fuster, Mark M., additional, Stokes, Jennifer A., additional, Milner, Richard, additional, West, John B., additional, Zhang, Jiao, additional, Shyy, John Y., additional, Childebayeva, Ainash, additional, Vázquez-Medina, José Pablo, additional, Pham, Luu V., additional, Mesarwi, Omar A., additional, Hall, James E., additional, Cheviron, Zachary A., additional, Sieker, Jeremy, additional, Blood, Arlin B., additional, Yuan, Jason X., additional, Scott, Graham R., additional, Rana, Brinda K., additional, Ponganis, Paul J., additional, Malhotra, Atul, additional, Powell, Frank L., additional, and Simonson, Tatum S., additional

Published
2022
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33. Identifying positive selection candidate loci for high-altitude adaptation in Andean populations

Author

Bigham Abigail W, Mao Xianyun, Mei Rui, Brutsaert Tom, Wilson Megan J, Julian Colleen, Parra Esteban J, Akey Joshua M, Moore Lorna G, and Shriver Mark D

Subjects
genome scan, positive selection, Native Americans, altitude adaptation, Medicine, Genetics, QH426-470
Abstract

Abstract High-altitude environments (>2,500 m) provide scientists with a natural laboratory to study the physiological and genetic effects of low ambient oxygen tension on human populations. One approach to understanding how life at high altitude has affected human metabolism is to survey genome-wide datasets for signatures of natural selection. In this work, we report on a study to identify selection-nominated candidate genes involved in adaptation to hypoxia in one highland group, Andeans from the South American Altiplano. We analysed dense microarray genotype data using four test statistics that detect departures from neutrality. Using a candidate gene, single nucleotide polymorphism-based approach, we identified genes exhibiting preliminary evidence of recent genetic adaptation in this population. These included genes that are part of the hypoxia-inducible transcription factor (HIF) pathway, a biochemical pathway involved in oxygen homeostasis, as well as three other genomic regions previously not known to be associated with high-altitude phenotypes. In addition to identifying selection-nominated candidate genes, we also tested whether the HIF pathway shows evidence of natural selection. Our results indicate that the genes of this biochemical pathway as a group show no evidence of having evolved in response to hypoxia in Andeans. Results from particular HIF-targeted genes, however, suggest that genes in this pathway could play a role in Andean adaptation to high altitude, even if the pathway as a whole does not show higher relative rates of evolution. These data suggest a genetic role in high-altitude adaptation and provide a basis for genotype/phenotype association studies that are necessary to confirm the role of putative natural selection candidate genes and gene regions in adaptation to altitude.

Published
2009
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37. Why is human uterine artery blood flow during pregnancy so high?

Author

Moore, Lorna G., Wesolowski, Stephanie R., Lorca, Ramón A., Murray, Andrew J., and Julian, Colleen G.

Subjects
*UTERINE artery, *BLOOD flow, *FETAL development, *PREGNANCY complications, *BIRTH weight
Abstract

In healthy near-term women, blood flow to the uteroplacental circulation is estimated as 841 mL/min, which is greater than in other mammalian species. We argue that as uterine venous PO2 sets the upper limit for O2 diffusion to the fetus, high uterine artery blood flow serves to narrow the maternal arterial-to-uterine venous PO2 gradient and thereby raise uterine vein PO2. In support, we show that the reported levels for uterine artery blood flow agree with what is required to maintain normal fetal growth. Although residence at high altitudes (>2,500 m) depresses fetal growth, not all populations are equally affected; Tibetans and Andeans have higher levels of uterine artery blood flow than newcomers and exhibit normal fetal growth. Estimates of uterine venous PO2 from the umbilical blood-gas data available from healthy Andean pregnancies indicate that their high levels of uterine artery blood flow are consistent with their reported, normal birth weights. Unknown, however, are the effects on placental gas exchange of the lower levels of uterine artery blood flow seen in high-altitude newcomers or hypoxia-associated pregnancy complications. We speculate that, by widening the maternal artery to uterine vein PO2 gradient, lower levels of uterine artery blood flow prompt metabolic changes that slow fetal growth to match O2 supply. [ABSTRACT FROM AUTHOR]

Published
2022
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41. Augmented uterine artery blood flow and oxygen delivery protect Andeans from altitude-associated reductions in fetal growth

Author

Julian, Colleen Glyde, Wilson, Megan J., Lopez, Miriam, Yamashiro, Henry, Tellez, Wilma, Rodriguez, Armando, Bigham, Abigail W., Shriver, Mark D., Rodriguez, Carmelo, Vargas, Enrique, and Moore, Lorna G.

Subjects
Altitudes -- Physiological aspects, Altitudes -- Research, Uterine circulation -- Physiological aspects, Uterine circulation -- Research, Fetus -- Growth, Fetus -- Physiological aspects, Fetus -- Control, Fetus -- Research, Uterus -- Blood-vessels, Uterus -- Physiological aspects, Uterus -- Research, Biological sciences
Abstract

The effect of high altitude on reducing birth weight is markedly less in populations of high- (e.g., Andeans) relative to low-altitude origin (e.g., Europeans). Uterine artery (UA) blood flow is greater during pregnancy in Andeans than Europeans at high altitude; however, it is not clear whether such blood flow differences play a causal role in ancestry-associated variations in fetal growth. We tested the hypothesis that greater UA blood flow contributes to the protection of fetal growth afforded by Andean ancestry by comparing UA blood flow and fetal growth throughout pregnancy in 137 Andean or European residents of low (400 m; European n = 28, Andean n = 23) or high (3,100-4,100 m; European n = 51, Andean n = 35) altitude in Bolivia. Blood flow and fetal biometry were assessed by Doppler ultrasound, and maternal ancestry was confirmed, using a panel of 100 ancestry-informative genetic markers (AIMs). At low altitude, there were no ancestry-related differences in the pregnancy-associated rise in UA blood flow, fetal biometry, or birth weight. At high altitude, Andean infants weighed 253 g more than European infants after controlling for gestational age and other known influences. UA blood flow and [O.sub.2] delivery were twofold greater at 20 wk in Andean than European women at high altitude, and were paralleled by greater fetal size. Moreover, variation in the proportion of Indigenous American ancestry among individual women was positively associated with UA diameter, blood flow, [O.sub.2] delivery, and fetal head circumference. We concluded that greater UA blood flow protects against hypoxia-associated reductions in fetal growth, consistent with the hypothesis that genetic factors enabled Andeans to achieve a greater pregnancyassociated rise in UA blood flow and [O.sub.2] delivery than European women at high altitude. genetic adaptation; hypoxia; intrauterine growth restriction; uteroplacental blood flow

Published
2009

43. Lower uterine artery blood flow and higher endothelin relative to nitric oxide metabolite levels are associated with reductions in birth weight at high altitude

Author

Julian, Colleen Glyde, Galan, Henry L., Wilson, Megan J., DeSilva, Wendy, Cioffi-Ragan, Darleen, Schwartz, Joel, and Moore, Lorna G.

Subjects
Arteries -- Properties, Blood flow -- Measurement, Uterus -- Properties, Endothelin -- Health aspects, Nitric oxide -- Health aspects, Hypoxia -- Risk factors, Biological transport -- Evaluation, Fetus -- Growth, Fetus -- Research, Biological sciences
Abstract

Reduced uteroplacental blood flow is hypothesized to play a key role in altitude-associated fetal growth restriction. It is unknown whether reduced blood flow is a cause or consequence of reduced fetal size. We asked whether determinants of uteroplacental blood flow were altered prior to reduced fetal growth and whether vasoactive and/or angiogenic factors were involved. Women residing at low (LA; 1600 m, n = 18) or high altitude (HA; 3100 m, n = 25) were studied during pregnancy (20, 30, and 36 wk) and 4 mo postpartum (PP) using Doppler ultrasound. In each study, endothelin (ET-1), nitric oxide metabolites ([NO.sub.x]), soluble fins-like tyrosine kinase (sFlt-1) and placental growth factor (P1GF) levels were quantified. At HA, birth weights were lower (P < 0.01) and small-for-gestational age was more common (P < 0.05) compared with LA. HA was associated with lower uterine artery (UA) diameter (P < 0.01) and blood flow (P < 0.05). Altitude did not affect ET-1, sFlt-1 or P1GF; however, ET-1/[NO.sub.x] was greater and [N[O.sub.x] lower during pregnancy and PP at HA vs. LA. ET-1/N[O.sub.x] was negatively associated with birth weight (20 wk, P < 0.01; 36 wk, P = 0.05) at LA and HA combined. At HA, UA blood flow (30 wk) was positively associated with birth weight ([dagger]). UA blood flow and ET-1/N[O.sub.x] levels accounted for 45% (20 wk) and 32% (30 wk) of birth weight variation at LA and HA combined, primarily attributed to effects at HA. We concluded that elevated ET-1/[NO.sub.x] and altered determinants of uteroplacental blood flow occur prior to altitude-associated reductions in fetal growth, and therefore, they are likely a cause rather than a consequence of smaller fetal size. fetal growth restriction; hypoxia; small-for-gestational age; uteroplacental oxygen delivery, pregnancy

Published
2008

44. Determinants of blood oxygenation during pregnancy in Andean and European residents of high altitude

Author

Vargas, Marco, Vargas, Enrique, Julian, Colleen G., Armaza, J. Fernando, Rodriguez, Armando, Tellez, Wilma, Niermeyer, Susan, Wilson, Megan, Parra, Esteban, Shriver, Mark, and Moore, Lorna G.

Subjects
Oxygen consumption -- Research, Anion exchangers (Biology) -- Research, Fetal anoxia -- Research, Oxygen -- Physiological transport, Oxygen -- Research, Fetus -- Growth, Fetus -- Research, Cell research, Biological sciences
Abstract

High altitude decreases birth weight, but this effect is diminished in long vs. short-resident, high-altitude populations. We asked whether women from long vs. short-resident, high-altitude populations had higher arterial oxygenation levels by comparing 42 Andean and 26 European residents of La Paz, Bolivia (3,600 m), serially during pregnancy (weeks 20, 30, and 36) and again 4 mo postpartum. Pregnancy raised hypoxic ventilatory sensitivity threefold, resting ventilation ([V.sub.E]), and arterial [O.sub.2] saturation ([MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCI..]) in both groups. Ancestry, as identified using 81 genetic markers, correlated with respiratory pattern, such that greater Andean ancestry was associated with higher respiratory frequency and lower tidal volume. Pregnancy increased total blood and plasma volume ~40% in both groups without changing red blood cell mass relative to body weight; hence, hemoglobin fell. The hemoglobin decline was compensated for by the rise in [V.sub.E] and [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII.] with the result that arterial [O.sub.2] content ([MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII.]) was maintained near nonpregnant levels in both groups. Birth weights were similar for all Andean and European babies, but after adjusting for variation in gestational age, maternal height and parity, Andeans weighed 209 g more than Europeans. Babies with heavier birth weights and greater ponderal indices were born to Andean women with higher [V.sub.E] during pregnancy. We concluded that while maternal [V.sub.E] and arterial oxygenation were important, some factor other than higher [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII.] was responsible for protecting Andeans from altitude-associated reductions in fetal growth. hypoxia; ventilation; ventilatory control; infant birth weight; fetal growth; genetics of birth weight: human adaptation; respiratory pattern

Published
2007

45. Greater uterine artery blood flow during pregnancy in multigenerational (Andean) than shorter-term (European) high-altitude residents

Author

Wilson, Megan J., Lopez, Miriam, Vargas, Marco, Julian, Colleen, Tellez, Wilma, Rodriguez, Armando, Bigham, Abigail, Armaza, J. Fernando, Niermeyer, Susan, Shriver, Mark, Vargas, Enrique, and Moore, Lorna G.

Subjects
Fetal anoxia -- Research, Uterine circulation -- Research, Vascular resistance -- Research, Fetus -- Growth, Fetus -- Research, Oxygen -- Physiological transport, Oxygen -- Research, Uterus -- Blood-vessels, Uterus -- Research, Cardiovascular research, Biological sciences
Abstract

Multigenerational (Andean) compared with shorter-term (European) high-altitude residents exhibit less hypoxia-associated reductions in birth weight. Because differences in arterial [O.sub.2] content are not responsible, we asked whether greater pregnancy-associated increases in uterine artery (UA) blood flow and [O.sub.2] delivery were involved. Serial studies were conducted in 42 Andean and 26 European residents of La Paz, Bolivia (3600 m) at weeks 20, 30, 36 of pregnancy and 4 mo postpartum using Doppler ultrasound. There were no differences postpartum but Andean vs. European women had greater UA diameter (0.65 [+ or -] 0.01 vs. 0.56 [+ or -] 0.01 cm), cross-sectional area (33.1 [+ or -] 0.97 vs. 24.7 [+ or -] 1.18 [mm.sup.2]), and blood flow at week 36 (743 [+ or -] 87 vs. 474 [+ or -] 36 ml/min) (all P < 0.05) and thus 1.6-fold greater uteroplacental [O.sub.2] delivery near term (126.82 [+ or -] 18.47 vs. 80.33 [+ or -] 8.69 ml [O.sub.2]*ml [blood.sup.-1]*[min.sup.-1], P < 0.05). Andeans had greater common iliac (CI) flow and lower external iliac relative to CI flow (0.52 [+ or -] 0.11 vs. 0.95 [+ or -] 0.14, P < 0.05) than Europeans at week 36. After adjusting for gestational age, maternal height, and parity, Andean babies weighed 209 g more than the Europeans. Greater UA cross-sectional area at week 30 related positively to birth weight in Andeans (r = +0.39) but negatively in Europeans (r = -0.37) (both P < 0.01). We concluded that a greater pregnancy-associated increase in UA diameter raised UA blood flow and uteroplacental [O.sub.2] delivery in the Andeans and contributed to their ability to maintain normal fetal growth under conditions of high-altitude hypoxia. These data implicate the involvement of genetic factors in protecting multigenerational populations from hypoxia-associated reductions in fetal growth, but future studies are required for confirmation and identification of the specific genes involved. birth weight; genetic adaptation; hypoxia; small-for-gestational age; uteroplacental vascular resistance

Published
2007

46. A genomewide admixture mapping panel for Hispanic/Latino populations

Author

Xianyun Mao, Bigham, Abigail W., Rui Mei, Gutierrez, Gerardo, Vargas, Enrique, Mckeigue, Paul M., Shriver, Mark D., Parra, Esteban J., Weiss, Ken M., Brutsaert, Tom D., Leon-Velarde, Fabiola, and Moore, Lorna G.

Subjects
Hispanic Americans -- Genetic aspects, Chromosome mapping -- Research, Human population genetics -- Research, Biological sciences
Abstract

A genomewide admixture mapping (AM) panel for Hispanic/Latino populations is described. The AM panel has 2,120 ancestry markers and the main criteria for marker selection were both high information content for Native American/European ancestry and small frequency differences between the Mesoamerican and South American samples.

Published
2007

49. High altitude regulates the expression of AMPK pathways in human placenta

Author

Lorca, Ramón A., primary, Houck, Julie A., additional, Laurent, Louise C., additional, Matarazzo, Christopher J., additional, Baker, Kori, additional, Horii, Mariko, additional, Nelson, Katharine K., additional, Bales, Elise S., additional, Euser, Anna G., additional, Parast, Mana M., additional, Moore, Lorna G., additional, and Julian, Colleen G., additional

Published
2021
Full Text
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50. Human physiological adaptation to pregnancy: Inter- and intraspecific perspectives

Author

Rockwell, L. Christie, Vargas, Enrique, and Moore, Lorna G.

Subjects
Pregnant women -- Health aspects, Natural selection -- Research, Biological sciences
Abstract

Inter- and intraspecific perspectives are used to highlight the unique features of the human physiological adaptation to pregnancy and their significance for reproductive successes. Both these perspectives suggest that natural selection has in the past and continues to operate in the present on maternal physiological responses to pregnancy.

Published
2003

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