Sarah M. Russell
Swinburne University of Technology
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Featured researches published by Sarah M. Russell.
Immunity | 1995
Xiqing Cao; Elizabeth W. Shores; Jane Hu-Li; Miriam R. Anver; Brian L. Kelsail; Sarah M. Russell; John Drago; Masayuki Noguchi; Alexander Grinberg; Eda T. Bloom; William Paul; Stephen I. Katz; Paul E. Love; Warren J. Leonard
The common gamma chain (gamma c) of the IL-2, IL-4, IL-7, IL-9, and IL-15 receptors is defective in humans with XSCID. Mice lacking gamma c expression had hypoplastic thymuses; the thymocytes responded to gamma c-independent mitogens, but not gamma c-dependent stimuli. Splenic T cells were diminished at 3 weeks of age, but CD4+ T cells markedly increased by 4 weeks. B cells were greatly diminished in contrast with the situation in XSCID. NK cells, gamma delta intestinal intraepithelial lymphocytes, dendritic epidermal T cells, peripheral lymph nodes, and gut-associated lymphoid tissue were absent. These findings underscore the importance of gamma c in lymphoid development. Moreover, differences in humans and mice lacking gamma c expression indicate species-specific differences in the roles of gamma c-dependent cytokines or in the existence of redundant pathways. These mice provide an important model for studying the pathophysiology provide an important model for studying the pathophysiology of and gene therapy for human XSCID.
Science | 2007
John T. Chang; Vikram R. Palanivel; Ichiko Kinjyo; Felix Schambach; Andrew M. Intlekofer; Arnob Banerjee; Sarah Longworth; Kristine E. Vinup; Paul Mrass; Jane Oliaro; Nigel Killeen; Jordan S. Orange; Sarah M. Russell; Wolfgang J. Weninger; Steven L. Reiner
A hallmark of mammalian immunity is the heterogeneity of cell fate that exists among pathogen-experienced lymphocytes. We show that a dividing T lymphocyte initially responding to a microbe exhibits unequal partitioning of proteins that mediate signaling, cell fate specification, and asymmetric cell division. Asymmetric segregation of determinants appears to be coordinated by prolonged interaction between the T cell and its antigen-presenting cell before division. Additionally, the first two daughter T cells displayed phenotypic and functional indicators of being differentially fated toward effector and memory lineages. These results suggest a mechanism by which a single lymphocyte can apportion diverse cell fates necessary for adaptive immunity.
Oncogene | 2007
Lukas E. Dow; Jeff S. Kauffman; Jacinta Caddy; A. S. Peterson; Stephen M. Jane; Sarah M. Russell; Patrick O. Humbert
Altered expression of human Scribble is associated with invasive epithelial cancers, however, its role in tumour development remains unclear. Mutations in Drosophila Scribble result in loss of polarity, overproliferation and 3D-tumourous overgrowth of epithelial cells. Using complementation studies in Drosophila we recently demonstrated that expression of human Scribble can also regulate polarity and restrict tissue overgrowth. Here, we have undertaken a detailed study of human Scribble function in the polarized mammary cell line, MCF10A. We show that although Scribble does not seem to be required for apical-basal polarity or proliferation control in MCF10A cells, Scribble is essential for the control of polarity associated with directed epithelial cell migration. Scribble-depleted MCF10A cells show defective in vitro wound closure and chemotactic movement. The cells at the wound edge fail to polarize, show reduced lamellipodia formation and impaired recruitment of Cdc42 and Rac1 to the leading edge. Furthermore, we show that this function is relevant in vivo as Scribble mutant mice show defective epidermal wound healing. This data identifies an essential role for mammalian Scribble in the regulation of the polarity specifically involved in directed epithelial migration.
Immunity | 2011
John T. Chang; Maria L. Ciocca; Ichiko Kinjyo; Vikram R. Palanivel; Courtney E. McClurkin; Caitlin S. DeJong; Erin C. Mooney; Jiyeon S. Kim; Natalie C. Steinel; Jane Oliaro; Catherine C. Yin; Bogdan I. Florea; Herman S. Overkleeft; Leslie J. Berg; Sarah M. Russell; Gary A. Koretzky; Martha S. Jordan; Steven L. Reiner
Polarized segregation of proteins in T cells is thought to play a role in diverse cellular functions including signal transduction, migration, and directed secretion of cytokines. Persistence of this polarization can result in asymmetric segregation of fate-determining proteins during cell division, which may enable a T cell to generate diverse progeny. Here, we provide evidence that a lineage-determining transcription factor, T-bet, underwent asymmetric organization in activated T cells preparing to divide and that it was unequally partitioned into the two daughter cells. This unequal acquisition of T-bet appeared to result from its asymmetric destruction during mitosis by virtue of concomitant asymmetric segregation of the proteasome. These results suggest a mechanism by which a cell may unequally localize cellular activities during division, thereby imparting disparity in the abundance of cell fate regulators in the daughter cells.
Journal of Experimental Medicine | 2011
Katrina L. Randall; Stephanie S Y Chan; Cindy S. Ma; Ivan Fung; Yan Mei; Mehmet Yabas; Andy Tan; Peter D. Arkwright; Wafaa Al Suwairi; Saul Oswaldo Lugo Reyes; Marco A. Yamazaki-Nakashimada; Maria de la Luz Garcia-Cruz; Joanne Smart; Capucine Picard; Satoshi Okada; Emmanuelle Jouanguy; Jean-Laurent Casanova; Teresa Lambe; Richard J. Cornall; Sarah M. Russell; Jane Oliaro; Stuart G. Tangye; Edward M. Bertram; Christopher C. Goodnow
As shown by analysis of mice and humans bearing DOCK8-inactivating mutations, DOCK8 plays a cell-autonomous role in survival of naive CD8 T cells, LFA-1 polarization toward the immune synapse, and CD8 T cell memory and recall responses following viral infection.
Journal of Clinical Investigation | 2011
Benjamin James Shields; Sock Hui Chew; Konstantinos Kyparissoudis; Catherine van Vliet; Sandra Galic; Michel L. Tremblay; Sarah M. Russell; Dale I. Godfrey; Tony Tiganis
Many autoimmune diseases exhibit familial aggregation, indicating that they have genetic determinants. Single nucleotide polymorphisms in PTPN2, which encodes T cell protein tyrosine phosphatase (TCPTP), have been linked with the development of several autoimmune diseases, including type 1 diabetes and Crohns disease. In this study, we have identified TCPTP as a key negative regulator of TCR signaling, which might explain the association of PTPN2 SNPs with autoimmune disease. We found that TCPTP dephosphorylates and inactivates Src family kinases to regulate T cell responses. Using T cell-specific TCPTP-deficient mice, we established that TCPTP attenuates T cell activation and proliferation in vitro and blunts antigen-induced responses in vivo. TCPTP deficiency lowered the in vivo threshold for TCR-dependent CD8(+) T cell proliferation. Consistent with this, T cell-specific TCPTP-deficient mice developed widespread inflammation and autoimmunity that was transferable to wild-type recipient mice by CD8(+) T cells alone. This autoimmunity was associated with increased serum levels of proinflammatory cytokines and anti-nuclear antibodies, T cell infiltrates in non-lymphoid tissues, and liver disease. These data indicate that TCPTP is a critical negative regulator of TCR signaling that sets the threshold for TCR-induced naive T cell responses to prevent autoimmune and inflammatory disorders arising.
Oncogene | 2003
Lukas E. Dow; Anthony M. Brumby; Rosa Muratore; Michelle Coombe; Karin A Sedelies; Joseph A. Trapani; Sarah M. Russell; Helena E. Richardson; Patrick O. Humbert
Scribble (scrib), discs large (dlg) and lethal giant larvae (lgl) encode proteins that regulate cell polarity and have been identified as neoplastic tumour suppressor genes in Drosophila melanogaster. Here, we have used the Drosophila model system to provide the first functional evidence that human Scribble (hScrib) can act as a tumour suppressor. We show that hScrib protein displays highly polarized localization in mammalian epithelial cells and colocalizes with mammalian Dlg, similar to D. melanogaster Scribble (DmScrib) distribution in Drosophila epithelium. Furthermore, hScrib can rescue the polarity and tumorous overgrowth defects of scrib mutant Drosophila. hScrib therefore can act as an effective tumour suppressor in vivo, regulating both apical–basal polarity and cellular proliferation in a manner similar to that of DmScrib in Drosophila. These data demonstrate that hScrib is a functional homologue of DmScrib and therefore predict an important role for hScrib in the suppression of mammalian tumorigenesis.
Journal of Immunology | 2010
Jane Oliaro; Vanessa Van Ham; Faruk Sacirbegovic; Anupama Pasam; Ze’ev Bomzon; Kim Pham; Mandy J. Ludford-Menting; Nigel J. Waterhouse; Michael Bots; Edwin D. Hawkins; Sally V. Watt; Leonie A. Cluse; Christopher J. Clarke; David J. Izon; John T. Chang; Natalie Thompson; Min Gu; Ricky W. Johnstone; Mark J. Smyth; Patrick O. Humbert; Steven L. Reiner; Sarah M. Russell
Asymmetric cell division is a potential means by which cell fate choices during an immune response are orchestrated. Defining the molecular mechanisms that underlie asymmetric division of T cells is paramount for determining the role of this process in the generation of effector and memory T cell subsets. In other cell types, asymmetric cell division is regulated by conserved polarity protein complexes that control the localization of cell fate determinants and spindle orientation during division. We have developed a tractable, in vitro model of naive CD8+ T cells undergoing initial division while attached to dendritic cells during Ag presentation to investigate whether similar mechanisms might regulate asymmetric division of T cells. Using this system, we show that direct interactions with APCs provide the cue for polarization of T cells. Interestingly, the immunological synapse disseminates before division even though the T cells retain contact with the APC. The cue from the APC is translated into polarization of cell fate determinants via the polarity network of the Par3 and Scribble complexes, and orientation of the mitotic spindle during division is orchestrated by the partner of inscuteable/G protein complex. These findings suggest that T cells have selectively adapted a number of evolutionarily conserved mechanisms to generate diversity through asymmetric cell division.
Immunogenetics | 1991
Damian F. J. Purcell; Sarah M. Russell; Nicholas J. Deacon; Melissa A. Brown; David J. Hooker; Ian F. C. McKenzie
Five alternative cDNA clones were isolated for CD46, also known as the membrane cofactor protein (MCP) for the factor I-mediated cleavage of the complement convertases. One of these cDNA clones (a) was identical to an earlier MCP clone. The other four CD46 clones 3ontained the four NH2-terminanl short consensus repeat (SCR) units of MCP, but differed at the region encoding the carboxyl-terminal of the protein which includes an extracellular segment rich in Ser, Thr, and Pro residues, a hydrophobic membrane-spanning domain, and a 33 amino acid cytoplasmic tail. The different CD46 cDNAs have variously: (b) inserted a 93 base pair (bp) exon resulting in a new cytoplasmic tail of 26 amino acids; (c) deleted a 42 bp exon from the extracellular Ser/Thr rich region; (d) used a cryptic splice acceptor sequence to delete 37 bp from an exon encoding transmembrane sequence; or (e) failed to splice the intron after the four SCR units. These were shown by northern blot and polymerase chain reaction to arise by alternative splicing of CD46 RNA. Forms (a), (b), and (c) of CD46 RNA are common in placental RNA, but (d) was rare, and (e) was incompletely processed and therefore aberrant. The polymerase chain reaction (PCR) was used to map the sites of the intron/exon junctions and demonstrate further possible splice variants of CD46. The alternative RNAs for CD46 may correlate to the different isoforms of CD46 found in different tissues, tumors, and in serum.
Nature Communications | 2013
Edwin D. Hawkins; Jane Oliaro; Axel Kallies; Gabrielle T. Belz; Andrew Filby; Thea Hogan; Nicole M. Haynes; Kelly M. Ramsbottom; Vanessa Van Ham; Tanja Kinwell; Benedict Seddon; Derek Davies; David M. Tarlinton; Andrew M. Lew; Patrick O. Humbert; Sarah M. Russell
The production of protective antibody requires effective signalling of naive B cells following encounter with antigen, and the divergence of responding B lymphocytes into distinct lineages. Polarity proteins have recently been proposed as important mediators of both the initial B cell response, and potentially of asymmetric cell division. Here we show that, although polarity proteins of the Scribble complex, Scribble, Dlg1 and Lgl1, are expressed and polarized during early B cell activation, their deficiency has no effect on the in vivo outcome of immunization or challenge with influenza infection. Furthermore, we find a striking correlation in the differentiation outcome of daughters of single founder B cells in vitro. Taken together, our results indicate that B cell differentiation does not require polarity proteins of the Scribble complex, and the findings do not support a role for asymmetric cell division in B cell activation and differentiation.