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Department/Unit:Cell Biology

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14243


Single-Cell Profiling and SCOPE-Seq Reveal Lineage Dynamics of Adult Ventricular-Subventricular Zone Neurogenesis and NOTUM as a Key Regulator

Mizrak, Dogukan; Bayin, N Sumru; Yuan, Jinzhou; Liu, Zhouzerui; Suciu, Radu M; Niphakis, Micah J; Ngo, Nhi; Lum, Kenneth M; Cravatt, Benjamin F; Joyner, Alexandra L; Sims, Peter A
In the adult ventricular-subventricular zone (V-SVZ), neural stem cells (NSCs) generate new olfactory bulb (OB) neurons and glia throughout life. To map adult neuronal lineage progression, we profiled >56,000 V-SVZ and OB cells by single-cell RNA sequencing (scRNA-seq). Our analyses reveal the molecular diversity of OB neurons, including fate-mapped neurons, lineage progression dynamics, and an NSC intermediate enriched for Notum, which encodes a secreted WNT antagonist. SCOPE-seq technology, which links live-cell imaging with scRNA-seq, uncovers cell-size transitions during NSC differentiation and preferential NOTUM binding to proliferating neuronal precursors. Consistently, application of NOTUM protein in slice cultures and pharmacological inhibition of NOTUM in slice cultures and in vivo demonstrated that NOTUM negatively regulates V-SVZ proliferation. Timely, context-dependent neurogenesis demands adaptive signaling among neighboring progenitors. Our findings highlight a critical regulatory state during NSC activation marked by NOTUM, which attenuates WNT-stimulated proliferation in NSC progeny.
PMID: 32579931
ISSN: 2211-1247
CID: 4493312

Zona Pellucida Proteins, Fibrils, and Matrix

Litscher, Eveline S; Wassarman, Paul M
The zona pellucida (ZP) is an extracellular matrix that surrounds all mammalian oocytes, eggs, and early embryos and plays vital roles during oogenesis, fertilization, and preimplantation development. The ZP is composed of three or four glycosylated proteins, ZP1-4, that are synthesized, processed, secreted, and assembled into long, cross-linked fibrils by growing oocytes. ZP proteins have an immunoglobulin-like three-dimensional structure and a ZP domain that consists of two subdomains, ZP-N and ZP-C, with ZP-N of ZP2 and ZP3 required for fibril assembly. A ZP2-ZP3 dimer is located periodically along ZP fibrils that are cross-linked by ZP1, a protein with a proline-rich N terminus. Fibrils in the inner and outer regions of the ZP are oriented perpendicular and parallel to the oolemma, respectively, giving the ZP a multilayered appearance. Upon fertilization of eggs, modification of ZP2 and ZP3 results in changes in the ZP's physical and biological properties that have important consequences. Certain structural features of ZP proteins suggest that they may be amyloid-like proteins.
PMID: 32569527
ISSN: 1545-4509
CID: 4492872

Promoter Activity-Based Case-Control Association Study on SLC6A4 Highlighting Hypermethylation and Altered Amygdala Volume in Male Patients With Schizophrenia

Ikegame, Tempei; Bundo, Miki; Okada, Naohiro; Murata, Yui; Koike, Shinsuke; Sugawara, Hiroko; Saito, Takeo; Ikeda, Masashi; Owada, Keiho; Fukunaga, Masaki; Yamashita, Fumio; Koshiyama, Daisuke; Natsubori, Tatsunobu; Iwashiro, Norichika; Asai, Tatsuro; Yoshikawa, Akane; Nishimura, Fumichika; Kawamura, Yoshiya; Ishigooka, Jun; Kakiuchi, Chihiro; Sasaki, Tsukasa; Abe, Osamu; Hashimoto, Ryota; Iwata, Nakao; Yamasue, Hidenori; Kato, Tadafumi; Kasai, Kiyoto; Iwamoto, Kazuya
Associations between altered DNA methylation of the serotonin transporter (5-HTT)-encoding gene SLC6A4 and early life adversity, mood and anxiety disorders, and amygdala reactivity have been reported. However, few studies have examined epigenetic alterations of SLC6A4 in schizophrenia (SZ). We examined CpG sites of SLC6A4, whose DNA methylation levels have been reported to be altered in bipolar disorder, using 3 independent cohorts of patients with SZ and age-matched controls. We found significant hypermethylation of a CpG site in SLC6A4 in male patients with SZ in all 3 cohorts. We showed that chronic administration of risperidone did not affect the DNA methylation status at this CpG site using common marmosets, and that in vitro DNA methylation at this CpG site diminished the promoter activity of SLC6A4. We then genotyped the 5-HTT-linked polymorphic region (5-HTTLPR) and investigated the relationship among 5-HTTLPR, DNA methylation, and amygdala volume using brain imaging data. We found that patients harboring low-activity 5-HTTLPR alleles showed hypermethylation and they showed a negative correlation between DNA methylation levels and left amygdala volumes. These results suggest that hypermethylation of the CpG site in SLC6A4 is involved in the pathophysiology of SZ, especially in male patients harboring low-activity 5-HTTLPR alleles.
PMID: 32556264
ISSN: 1745-1701
CID: 4485222

Single-molecule Localization of Nav1.5 Reveals Different Modes of Reorganization at Cardiomyocyte Membrane Domains

Vermij, Sarah H; Rougier, Jean-Sébastien; Agulló-Pascual, Esperanza; Rothenberg, Eli; Delmar, Mario; Abriel, Hugues
Background - Mutations in the gene encoding the sodium channel Nav1.5 cause various cardiac arrhythmias. This variety may arise from different determinants of Nav1.5 expression between cardiomyocyte domains. At the lateral membrane and T-tubules, Nav1.5 localization and function remain insufficiently characterized. Methods - We used novel single-molecule localization microscopy (SMLM) and computational modeling to define nanoscale features of Nav1.5 localization and distribution at the lateral membrane (LM), the LM groove, and T-tubules (TT) in cardiomyocytes from wild-type (N = 3), dystrophin-deficient (mdx; N = 3) mice, and mice expressing C-terminally truncated Nav1.5 (ΔSIV; N = 3). We moreover assessed TT sodium current by recording whole-cell sodium currents in control (N = 5) and detubulated (N = 5) wild-type cardiomyocytes. Results - We show that Nav1.5 organizes as distinct clusters in the groove and T-tubules which density, distribution, and organization partially depend on SIV and dystrophin. We found that overall reduction in Nav1.5 expression in mdx and ΔSIV cells results in a non-uniform re-distribution with Nav1.5 being specifically reduced at the groove of ΔSIV and increased in T-tubules of mdx cardiomyocytes. A TT sodium current could however not be demonstrated. Conclusions - Nav1.5 mutations may site-specifically affect Nav1.5 localization and distribution at the lateral membrane and T-tubules, depending on site-specific interacting proteins. Future research efforts should elucidate the functional consequences of this redistribution.
PMID: 32536203
ISSN: 1941-3084
CID: 4484432

Characteristics and Outcomes of 241 Births to Women With Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) Infection at Five New York City Medical Centers

Khoury, Rasha; Bernstein, Peter S; Debolt, Chelsea; Stone, Joanne; Sutton, Desmond M; Simpson, Lynn L; Limaye, Meghana A; Roman, Ashley S; Fazzari, Melissa; Penfield, Christina A; Ferrara, Lauren; Lambert, Calvin; Nathan, Lisa; Wright, Rodney; Bianco, Angela; Wagner, Brian; Goffman, Dena; Gyamfi-Bannerman, Cynthia; Schweizer, William E; Avila, Karina; Khaksari, Bijan; Proehl, Meghan; Heitor, Fabiano; Monro, Johanna; Keefe, David L; DʼAlton, Mary E; Brodman, Michael; Makhija, Sharmila K; Dolan, Siobhan M
OBJECTIVE:To describe the characteristics and birth outcomes of women with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection as community spread in New York City was detected in March 2020. METHODS:We performed a prospective cohort study of pregnant women with laboratory-confirmed SARS-CoV-2 infection who gave birth from March 13 to April 12, 2020, identified at five New York City medical centers. Demographic and clinical data from delivery hospitalization records were collected, and follow-up was completed on April 20, 2020. RESULTS:Among this cohort (241 women), using evolving criteria for testing, 61.4% of women were asymptomatic for coronavirus disease 2019 (COVID-19) at the time of admission. Throughout the delivery hospitalization, 26.5% of women met World Health Organization criteria for mild COVID-19, 26.1% for severe, and 5% for critical. Cesarean birth was the mode of delivery for 52.4% of women with severe and 91.7% with critical COVID-19. The singleton preterm birth rate was 14.6%. Admission to the intensive care unit was reported for 17 women (7.1%), and nine (3.7%) were intubated during their delivery hospitalization. There were no maternal deaths. Body mass index (BMI) 30 or higher was associated with COVID-19 severity (P=.001). Nearly all newborns tested negative for SARS-CoV-2 infection immediately after birth (97.5%). CONCLUSION/CONCLUSIONS:During the first month of the SARS-CoV-2 outbreak in New York City and with evolving testing criteria, most women with laboratory-confirmed infection admitted for delivery did not have symptoms of COVID-19. Almost one third of women who were asymptomatic on admission became symptomatic during their delivery hospitalization. Obesity was associated with COVID-19 severity. Disease severity was associated with higher rates of cesarean and preterm birth.
PMID: 32555034
ISSN: 1873-233x
CID: 4485172

Accurate measurement of fast endocytic recycling kinetics in real time

Jonker, Caspar T H; Deo, Claire; Zager, Patrick J; Tkachuk, Ariana N; Weinstein, Alan M; Rodriguez-Boulan, Enrique; Lavis, Luke D; Schreiner, Ryan
The fast turnover of membrane components through endocytosis and recycling allows precise control of the composition of the plasma membrane. Endocytic recycling can be rapid, with some molecules returning to the plasma membrane with a half time <5 min. Existing methods to study these trafficking pathways utilize chemical, radioactive or fluorescent labeling of cell surface receptors in pulse-chase experiments, which require tedious washing steps and manual collection of samples. Here, we introduce a live-cell endocytic recycling assay based on a newly designed cell-impermeable fluorogenic ligand for HaloTag, Janelia Fluor 635i (JF635i, where i indicates impermeant), which allows real-time detection of membrane receptor recycling at steady state. We used this method to study the effect of iron depletion on transferrin receptor (TfR) recycling using the chelator desferrioxamine. We found that this perturbation significantly increases the TfR recycling rate. The high temporal resolution and simplicity of this assay provides a clear advantage over extant methods and makes it ideal for large scale cellular imaging studies. This assay can be adapted to examine other cellular kinetic parameters such as protein turnover and biosynthetic trafficking.
PMCID:6983720
PMID: 31843759
ISSN: 1477-9137
CID: 4481442

Cardiac function modulates endocardial cell dynamics to shape the cardiac outflow tract

Sidhwani, Pragya; Leerberg, Dena M; Boezio, Giulia L M; Capasso, Teresa L; Yang, Hongbo; Chi, Neil C; Roman, Beth L; Stainier, Didier Y R; Yelon, Deborah
Physical forces are important participants in the cellular dynamics that shape developing organs. During heart formation, for example, contractility and blood flow generate biomechanical cues that influence patterns of cell behavior. Here, we address the interplay between function and form during the assembly of the cardiac outflow tract (OFT), a crucial connection between the heart and vasculature that develops while circulation is underway. In zebrafish, we find that the OFT expands via accrual of both endocardial and myocardial cells. However, when cardiac function is disrupted, OFT endocardial growth ceases, accompanied by reduced proliferation and reduced addition of cells from adjacent vessels. The flow-responsive TGFβ receptor Acvrl1 is required for addition of endocardial cells, but not for their proliferation, indicating distinct modes of function-dependent regulation for each of these essential cell behaviors. Together, our results indicate that cardiac function modulates OFT morphogenesis by triggering endocardial cell accumulation that induces OFT lumen expansion and shapes OFT dimensions; moreover, these morphogenetic mechanisms provide new perspectives regarding the potential causes of cardiac birth defects.
PMID: 32439760
ISSN: 1477-9129
CID: 4481932

Analysis of Population Representation Among Willed Whole-Body Donors to Facilitate the Construction of a Body Donation Program in China: From the Perspective of Medical Students and Anatomists

Zhang, Hanlin; Chen, Kang; Wang, Naili; Zhang, Di; Zhang, Qing; Tang, Keyun; Wan, Mengyao; Gong, Changlin; Hong, Xinyu; Qiu, Wenying; Rizzolo, Lawrence J; Ma, Chao
The body donation program of Peking Union Medical College was established in May 1999. From May 1999 to December 2017, a total of 5,576 registrants registered and 1,459 donors donated their bodies. Demographic and medical characteristics of the donors were analyzed. The top four causes of death were neoplasms, heart diseases, respiratory diseases, and cerebrovascular diseases. Age at death among donors who died of neoplasms were significantly lower than other causes of death (all p < .05), and the interval between registration and donation among donors who died of neoplasms was significantly shorter than that among donors with other causes (all p < .001). The age of donors when they registered (p < .001) and donated (p < .001) was significantly older than that of general Beijing population. This study may provide a guide for medical colleges or research institutions to establish or enhance their own body donation programs.
PMID: 32515268
ISSN: 1541-3764
CID: 4478132

Specific Isoforms of the Guanine-Nucleotide Exchange Factor dPix Couple Neuromuscular Synapse Growth to Muscle Growth

Ho, Cheuk Hei; Treisman, Jessica E
Developmental growth requires coordination between the growth rates of individual tissues and organs. Here, we examine how Drosophila neuromuscular synapses grow to match the size of their target muscles. We show that changes in muscle growth driven by autonomous modulation of insulin receptor signaling produce corresponding changes in synapse size, with each muscle affecting only its presynaptic motor neuron branches. This scaling growth is mechanistically distinct from synaptic plasticity driven by neuronal activity and requires increased postsynaptic differentiation induced by insulin receptor signaling in muscle. We identify the guanine-nucleotide exchange factor dPix as an effector of insulin receptor signaling. Alternatively spliced dPix isoforms that contain a specific exon are necessary and sufficient for postsynaptic differentiation and scaling growth, and their mRNA levels are regulated by insulin receptor signaling. These findings define a mechanism by which the same signaling pathway promotes both autonomous muscle growth and non-autonomous synapse growth.
PMID: 32516570
ISSN: 1878-1551
CID: 4478172

Macrophage Subpopulation Dynamics Shift following Intravenous Infusion of Mesenchymal Stromal Cells

Kosaric, Nina; Srifa, Waracharee; Bonham, Clark A; Kiwanuka, Harriet; Chen, Kellen; Kuehlmann, Britta A; Maan, Zeshaan N; Noishiki, Chikage; Porteus, Matthew H; Longaker, Michael T; Gurtner, Geoffrey C
Intravenous infusion of mesenchymal stromal cells (MSCs) is thought to be a viable treatment for numerous disorders. Although the intrinsic immunosuppressive ability of MSCs has been credited for this therapeutic effect, their exact impact on endogenous tissue-resident cells following delivery has not been clearly characterized. Moreover, multiple studies have reported pulmonary sequestration of MSCs upon intravenous delivery. Despite substantial efforts to improve MSC homing, it remains unclear whether MSC migration to the site of injury is necessary to achieve a therapeutic effect. Using a murine excisional wound healing model, we offer an explanation of how sequestered MSCs improve healing through their systemic impact on macrophage subpopulations. We demonstrate that infusion of MSCs leads to pulmonary entrapment followed by rapid clearance, but also significantly accelerates wound closure. Using single-cell RNA sequencing of the wound, we show that following MSC delivery, innate immune cells, particularly macrophages, exhibit distinctive transcriptional changes. We identify the appearance of a pro-angiogenic CD9+ macrophage subpopulation, whose induction is mediated by several proteins secreted by MSCs, including COL6A1, PRG4, and TGFB3. Our findings suggest that MSCs do not need to act locally to induce broad changes in the immune system and ultimately treat disease.
PMID: 32531238
ISSN: 1525-0024
CID: 4478712