| Year |
Citation |
Score |
| 2024 |
Stewen J, Kruse K, Godoi-Filip AT, Jeong HW, Adams S, Berkenfeld F, Stehling M, Red-Horse K, Adams RH, Pitulescu ME. Eph-ephrin signaling couples endothelial cell sorting and arterial specification. Nature Communications. 15: 2539. PMID 38570531 DOI: 10.1038/s41467-024-46300-0 |
0.363 |
|
| 2024 |
Fowler JL, Zheng SL, Nguyen A, Chen A, Xiong X, Chai T, Chen JY, Karigane D, Banuelos AM, Niizuma K, Kayamori K, Nishimura T, Cromer MK, Gonzalez-Perez D, Mason C, ... ... Red-Horse K, et al. Lineage-tracing hematopoietic stem cell origins in vivo to efficiently make human HLF+ HOXA+ hematopoietic progenitors from pluripotent stem cells. Developmental Cell. PMID 38569552 DOI: 10.1016/j.devcel.2024.03.003 |
0.333 |
|
| 2023 |
Rios Coronado PE, Zanetti D, Zhou J, Naftaly JA, Prabala P, Kho PF, Martínez Jaimes AM, Hilliard AT, Pyarajan S, Dochtermann D, Chang KM, Winn VD, Pașca AM, Plomondon ME, Waldo SW, ... ... Red-Horse K, et al. CXCL12 regulates coronary artery dominance in diverse populations and links development to disease. Medrxiv : the Preprint Server For Health Sciences. PMID 37961706 DOI: 10.1101/2023.10.27.23297507 |
0.383 |
|
| 2023 |
Chiang IK, Humphrey D, Mills RJ, Kaltzis P, Pachauri S, Graus M, Saha D, Wu Z, Young P, Sim CB, Davidson T, Hernandez-Garcia A, Shaw CA, Renwick A, Scott DA, ... ... Red-Horse K, et al. Sox7-positive endothelial progenitors establish coronary arteries and govern ventricular compaction. Embo Reports. e55043. PMID 37551717 DOI: 10.15252/embr.202255043 |
0.407 |
|
| 2023 |
Arolkar G, Krishna Kumar S, Wang H, Gonzalez KM, Kumar S, Bishnoi B, Rios Coronado PE, Woo YJ, Red-Horse K, Das S. Dedifferentiation and Proliferation of Artery Endothelial Cells Drive Coronary Collateral Development in Mice. Arteriosclerosis, Thrombosis, and Vascular Biology. PMID 37345524 DOI: 10.1161/ATVBAHA.123.319319 |
0.437 |
|
| 2023 |
Baral K, D'amato G, Kuschel B, Bogan F, Jones BW, Large CL, Whatley JD, Red-Horse K, Sharma B. APJ+ cells in the SHF contribute to the cells of aorta and pulmonary trunk through APJ signaling. Developmental Biology. 498: 77-86. PMID 37037405 DOI: 10.1016/j.ydbio.2023.04.003 |
0.346 |
|
| 2022 |
D'Amato G, Phansalkar R, Naftaly JA, Fan X, Amir ZA, Rios Coronado PE, Cowley DO, Quinn KE, Sharma B, Caron KM, Vigilante A, Red-Horse K. Endocardium-to-coronary artery differentiation during heart development and regeneration involves sequential roles of Bmp2 and Cxcl12/Cxcr4. Developmental Cell. PMID 36347256 DOI: 10.1016/j.devcel.2022.10.007 |
0.455 |
|
| 2022 |
Ang LT, Nguyen AT, Liu KJ, Chen A, Xiong X, Curtis M, Martin RM, Raftry BC, Ng CY, Vogel U, Lander A, Lesch BJ, Fowler JL, Holman AR, Chai T, ... ... Red-Horse K, et al. Generating human artery and vein cells from pluripotent stem cells highlights the arterial tropism of Nipah and Hendra viruses. Cell. PMID 35738284 DOI: 10.1016/j.cell.2022.05.024 |
0.38 |
|
| 2021 |
Phansalkar R, Krieger J, Zhao M, Kolluru SS, Jones RC, Quake SR, Weissman I, Bernstein D, Winn VD, D'Amato G, Red-Horse K. Coronary blood vessels from distinct origins converge to equivalent states during mouse and human development. Elife. 10. PMID 34910626 DOI: 10.7554/eLife.70246 |
0.54 |
|
| 2021 |
Raftrey B, Williams IM, Rios Coronado PE, Fan X, Chang AH, Zhao M, Roth RK, Trimm E, Racelis R, D'Amato G, Phansalkar R, Nguyen A, Chai T, Gonzalez KM, Zhang Y, ... ... Red-Horse K, et al. Dach1 Extends Artery Networks and Protects Against Cardiac Injury. Circulation Research. PMID 34383559 DOI: 10.1161/CIRCRESAHA.120.318271 |
0.402 |
|
| 2021 |
Rhee S, Paik DT, Yang JY, Nagelberg D, Williams I, Tian L, Roth R, Chandy M, Ban J, Belbachir N, Kim S, Zhang H, Phansalkar R, Wong KM, King DA, ... ... Red-Horse K, et al. Endocardial/endothelial angiocrines regulate cardiomyocyte development and maturation and induce features of ventricular non-compaction. European Heart Journal. PMID 34279605 DOI: 10.1093/eurheartj/ehab298 |
0.339 |
|
| 2021 |
Red-Horse K, Das S. New Research Is Shining Light on How Collateral Arteries Form in the Heart: a Future Therapeutic Direction? Current Cardiology Reports. 23: 30. PMID 33655379 DOI: 10.1007/s11886-021-01460-z |
0.356 |
|
| 2020 |
Large CL, Vitali HE, Whatley JD, Red-Horse K, Sharma B. In Vitro Model of Coronary Angiogenesis. Journal of Visualized Experiments : Jove. PMID 32225157 DOI: 10.3791/60558 |
0.379 |
|
| 2019 |
Red-Horse K, Siekmann AF. Veins and Arteries Build Hierarchical Branching Patterns Differently: Bottom-Up versus Top-Down. Bioessays : News and Reviews in Molecular, Cellular and Developmental Biology. 41: e1800198. PMID 30805984 DOI: 10.1002/bies.201800198 |
0.323 |
|
| 2019 |
Das S, Goldstone AB, Wang H, Farry J, D'Amato G, Paulsen MJ, Eskandari A, Hironaka CE, Phansalkar R, Sharma B, Rhee S, Shamskhou EA, Agalliu D, de Jesus Perez V, Woo YJ, ... Red-Horse K, et al. A Unique Collateral Artery Development Program Promotes Neonatal Heart Regeneration. Cell. PMID 30686582 DOI: 10.1016/J.Cell.2018.12.023 |
0.398 |
|
| 2018 |
Su T, Stanley G, Sinha R, D'Amato G, Das S, Rhee S, Chang AH, Poduri A, Raftrey B, Dinh TT, Roper WA, Li G, Quinn KE, Caron KM, Wu S, ... ... Red-Horse K, et al. Single-cell analysis of early progenitor cells that build coronary arteries. Nature. PMID 29973725 DOI: 10.1038/S41586-018-0288-7 |
0.541 |
|
| 2018 |
Rhee S, Chung JI, King DA, D'amato G, Paik DT, Duan A, Chang A, Nagelberg D, Sharma B, Jeong Y, Diehn M, Wu JC, Morrison AJ, Red-Horse K. Endothelial deletion of Ino80 disrupts coronary angiogenesis and causes congenital heart disease. Nature Communications. 9: 368. PMID 29371594 DOI: 10.1038/S41467-017-02796-3 |
0.366 |
|
| 2017 |
Sharma B, Ho L, Ford GH, Chen HI, Goldstone AB, Woo YJ, Quertermous T, Reversade B, Red-Horse K. Alternative Progenitor Cells Compensate to Rebuild the Coronary Vasculature in Elabela- and Apj-Deficient Hearts. Developmental Cell. PMID 28890073 DOI: 10.1016/J.Devcel.2017.08.008 |
0.399 |
|
| 2017 |
Chang AH, Raftrey BC, D'Amato G, Surya VN, Poduri A, Chen HI, Goldstone AB, Woo J, Fuller GG, Dunn AR, Red-Horse K. DACH1 stimulates shear stress-guided endothelial cell migration and coronary artery growth through the CXCL12-CXCR4 signaling axis. Genes & Development. PMID 28779009 DOI: 10.1101/Gad.301549.117 |
0.389 |
|
| 2017 |
Poduri A, Raftrey B, Chang AH, Rhee S, Van M, Red-Horse K. Endothelial cells respond to the direction of mechanical stimuli through SMAD signaling to regulate coronary artery size. Development (Cambridge, England). PMID 28760815 DOI: 10.1242/dev.150904 |
0.397 |
|
| 2016 |
Sharma B, Chang A, Red-Horse K. Coronary Artery Development: Progenitor Cells and Differentiation Pathways. Annual Review of Physiology. PMID 27959616 DOI: 10.1146/Annurev-Physiol-022516-033953 |
0.364 |
|
| 2015 |
Volz KS, Jacobs AH, Chen HI, Poduri A, McKay AS, Riordan DP, Kofler N, Kitajewski J, Weissman I, Red-Horse K. Pericytes are progenitors for coronary artery smooth muscle. Elife. 4. PMID 26479710 DOI: 10.7554/Elife.10036 |
0.695 |
|
| 2015 |
Volz KS, Jacobs AH, Chen HI, Poduri A, McKay AS, Riordan DP, Kofler N, Kitajewski J, Weissman I, Red-Horse K. Author response: Pericytes are progenitors for coronary artery smooth muscle Elife. DOI: 10.7554/Elife.10036.024 |
0.67 |
|
| 2014 |
Chen HI, Sharma B, Akerberg BN, Numi HJ, Kivelä R, Saharinen P, Aghajanian H, McKay AS, Bogard PE, Chang AH, Jacobs AH, Epstein JA, Stankunas K, Alitalo K, Red-Horse K. The sinus venosus contributes to coronary vasculature through VEGFC-stimulated angiogenesis. Development (Cambridge, England). 141: 4500-12. PMID 25377552 DOI: 10.1242/Dev.113639 |
0.396 |
|
| 2014 |
Ali SR, Ranjbarvaziri S, Talkhabi M, Zhao P, Subat A, Hojjat A, Kamran P, Müller AM, Volz KS, Tang Z, Red-Horse K, Ardehali R. Developmental heterogeneity of cardiac fibroblasts does not predict pathological proliferation and activation. Circulation Research. 115: 625-35. PMID 25037571 DOI: 10.1161/Circresaha.115.303794 |
0.663 |
|
| 2014 |
Red-Horse K, Drake PM, Fisher S. Exploring the world of human development and reproduction. The International Journal of Developmental Biology. 58: 87-93. PMID 25023674 DOI: 10.1387/Ijdb.140063Kr |
0.48 |
|
| 2013 |
Tian X, Hu T, Zhang H, He L, Huang X, Liu Q, Yu W, He L, Yang Z, Zhang Z, Zhong TP, Yang X, Yang Z, Yan Y, Baldini A, ... ... Red-Horse K, et al. Subepicardial endothelial cells invade the embryonic ventricle wall to form coronary arteries. Cell Research. 23: 1075-90. PMID 23797856 DOI: 10.1038/cr.2013.83 |
0.402 |
|
| 2012 |
Greif DM, Kumar M, Lighthouse JK, Hum J, An A, Ding L, Red-Horse K, Espinoza FH, Olson L, Offermanns S, Krasnow MA. Radial construction of an arterial wall. Developmental Cell. 23: 482-93. PMID 22975322 DOI: 10.1016/j.devcel.2012.07.009 |
0.304 |
|
| 2010 |
Red-Horse K, Ueno H, Weissman IL, Krasnow MA. Coronary arteries form by developmental reprogramming of venous cells. Nature. 464: 549-53. PMID 20336138 DOI: 10.1038/nature08873 |
0.554 |
|
| 2008 |
Schanz A, Hess AP, Red-Horse K, Heiss C, Krüssel JS, Fisher S. Oxygen regulates human Cytotrophoblast Migration by controlling Chemokine Ligand and Receptor Expression Geburtshilfe Und Frauenheilkunde. 68. DOI: 10.1055/S-0028-1088900 |
0.428 |
|
| 2006 |
Red-Horse K, Rivera J, Schanz A, Zhou Y, Winn V, Kapidzic M, Maltepe E, Okazaki K, Kochman R, Vo KC, Giudice L, Erlebacher A, McCune JM, Stoddart CA, Fisher SJ. Literature watch. Cytotrophoblast induction of arterial apoptosis and lymphangiogenesis in an in vivo model of human placentation. Lymphatic Research and Biology. 4: 229-42. PMID 17394406 DOI: 10.1089/lrb.2006.4407 |
0.502 |
|
| 2006 |
Red-Horse K, Rivera J, Schanz A, Zhou Y, Winn V, Kapidzic M, Maltepe E, Okazaki K, Kochman R, Vo KC, Giudice L, Erlebacher A, McCune JM, Stoddart CA, Fisher SJ. Cytotrophoblast induction of arterial apoptosis and lymphangiogenesis in an in vivo model of human placentation. The Journal of Clinical Investigation. 116: 2643-52. PMID 16998586 DOI: 10.1172/Jci27306 |
0.552 |
|
| 2005 |
Red-Horse K, Kapidzic M, Zhou Y, Feng KT, Singh H, Fisher SJ. EPHB4 regulates chemokine-evoked trophoblast responses: a mechanism for incorporating the human placenta into the maternal circulation. Development (Cambridge, England). 132: 4097-106. PMID 16107476 DOI: 10.1242/Dev.01971 |
0.561 |
|
| 2005 |
Maltepe E, Krampitz GW, Okazaki KM, Red-Horse K, Mak W, Simon MC, Fisher SJ. Hypoxia-inducible factor-dependent histone deacetylase activity determines stem cell fate in the placenta. Development (Cambridge, England). 132: 3393-403. PMID 15987772 DOI: 10.1242/Dev.01923 |
0.544 |
|
| 2005 |
Chénais B, Derjuga A, Massrieh W, Red-Horse K, Bellingard V, Fisher SJ, Blank V. Functional and placental expression analysis of the human NRF3 transcription factor. Molecular Endocrinology (Baltimore, Md.). 19: 125-37. PMID 15388789 DOI: 10.1210/Me.2003-0379 |
0.508 |
|
| 2004 |
Red-Horse K, Zhou Y, Genbacev O, Prakobphol A, Foulk R, McMaster M, Fisher SJ. Trophoblast differentiation during embryo implantation and formation of the maternal-fetal interface. The Journal of Clinical Investigation. 114: 744-54. PMID 15372095 DOI: 10.1172/Jci22991 |
0.543 |
|
| 2004 |
Red-Horse K, Drake PM, Fisher SJ. Human pregnancy: the role of chemokine networks at the fetal-maternal interface. Expert Reviews in Molecular Medicine. 6: 1-14. PMID 15130179 DOI: 10.1017/S1462399404007720 |
0.552 |
|
| 2004 |
Drake PM, Red-Horse K, Fisher SJ. Reciprocal chemokine receptor and ligand expression in the human placenta: implications for cytotrophoblast differentiation. Developmental Dynamics : An Official Publication of the American Association of Anatomists. 229: 877-85. PMID 15042711 DOI: 10.1002/Dvdy.10477 |
0.52 |
|
| 2002 |
Drake PM, Red-Horse K, Fisher SJ. Chemokine expression and function at the human maternal-fetal interface. Reviews in Endocrine & Metabolic Disorders. 3: 159-65. PMID 12007293 DOI: 10.1023/A:1015463130306 |
0.518 |
|
| 2001 |
Red-Horse K, Drake PM, Gunn MD, Fisher SJ. Chemokine ligand and receptor expression in the pregnant uterus: reciprocal patterns in complementary cell subsets suggest functional roles. American Journal of Pathology. 159: 2199-2213. PMID 11733370 DOI: 10.1016/S0002-9440(10)63071-4 |
0.57 |
|
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