Your search keyword '"Olivia Susanto"' showing total 26 results

1. P1212: RATIONALLY DESIGNED CHIMERIC PI3K-BET BROMODOMAIN INHIBITORS ELICIT CURATIVE RESPONSES IN MYC-DRIVEN LYMPHOMA

Author

Danielle H. Oh, Xiao MA, Jackson He, Conor Kearney, Simon J. Hogg, Andrea Newbold, Peter Fraser, Ian G. Jennings, Daniella Brasacchio, Olivia Susanto, Chun Yew Fong, Mark A. Dawson, Emily Gruber, Lev Kats, Ricky W. Johnstone, Philip E. Thompson, and Jake Shortt

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

2. Acute myeloid leukemia maturation lineage influences residual disease and relapse following differentiation therapy

Author

Steven Ngo, Ethan P. Oxley, Margherita Ghisi, Maximilian M. Garwood, Mark D. McKenzie, Helen L. Mitchell, Peter Kanellakis, Olivia Susanto, Michael J. Hickey, Andrew C. Perkins, Benjamin T. Kile, and Ross A. Dickins

Subjects

Science

Abstract

Differentiation therapy induces the maturation and clearance of acute myeloid leukemia cells. Here, using a mouse model, the authors show that a specific lineage of mature leukemia-derived cells persists during remission and is responsible for disease relapse.

Published

2021

3. Using imaging to study inflammatory platelet–leukocyte interactions in vivo

Author

Olivia Susanto and Michael J. Hickey

Subjects

inflammation, kupffer cell, liver, monocyte, neutrophil, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

In addition to their roles in hemostasis and thrombosis, platelets are now recognized as making important contributions to a wide variety of inflammatory responses. This function primarily occurs as a result of intravascular interactions of platelets with leukocytes undergoing recruitment to the site of inflammation. As these interactions occur under the shear forces of flowing blood, they are typically rapid and highly dynamic. As such, the use of rapid frame-rate forms of in vivo microscopy, such as spinning-disk confocal intravital microscopy, have emerged as the optimal approaches for investigating these interactions and delineating their molecular basis and contribution to the inflammatory response. In this review, we provide an overview of the different methodologies employed to image platelet–leukocyte interactions in vivo, and examine the contributions of these interactions to inflammation that have been uncovered by intravital imaging.

Published

2020

4. LPP3, LPA and self-generated chemotactic gradients in biomedical science

Author

Olivia Susanto and Robert H. Insall

Subjects

cell biology, chemotaxis, memes, metastasis, lipid breakdown, lipid signalling, Biology (General), QH301-705.5

Abstract

Chemotaxis is a major driver of cancer spread, but in most cases we do not know where gradients of attractant come from. In the case of melanoma, chemotaxis to LPA is an important driver of metastasis, and the gradients are made by the tumour cells themselves, by locally breaking down ambient LPA. We have now made a general assay for self-generated chemotaxis, and used it to show that the enzyme LPP3 is responsible for breaking down LPA and thus creating the gradients. Further analysis shows LPP3 is important in several invasion assays, in particular 3D ones in which cells spread outwards through matrix. The new assays will illuminate where physiological self-generated gradients occur; we believe they will be common throughout biology and pathology.

Published

2018

5. Melanoma cells break down LPA to establish local gradients that drive chemotactic dispersal.

Author

Andrew J Muinonen-Martin, Olivia Susanto, Qifeng Zhang, Elizabeth Smethurst, William J Faller, Douwe M Veltman, Gabriela Kalna, Colin Lindsay, Dorothy C Bennett, Owen J Sansom, Robert Herd, Robert Jones, Laura M Machesky, Michael J O Wakelam, David A Knecht, and Robert H Insall

Subjects

Biology (General), QH301-705.5

Abstract

The high mortality of melanoma is caused by rapid spread of cancer cells, which occurs unusually early in tumour evolution. Unlike most solid tumours, thickness rather than cytological markers or differentiation is the best guide to metastatic potential. Multiple stimuli that drive melanoma cell migration have been described, but it is not clear which are responsible for invasion, nor if chemotactic gradients exist in real tumours. In a chamber-based assay for melanoma dispersal, we find that cells migrate efficiently away from one another, even in initially homogeneous medium. This dispersal is driven by positive chemotaxis rather than chemorepulsion or contact inhibition. The principal chemoattractant, unexpectedly active across all tumour stages, is the lipid agonist lysophosphatidic acid (LPA) acting through the LPA receptor LPAR1. LPA induces chemotaxis of remarkable accuracy, and is both necessary and sufficient for chemotaxis and invasion in 2-D and 3-D assays. Growth factors, often described as tumour attractants, cause negligible chemotaxis themselves, but potentiate chemotaxis to LPA. Cells rapidly break down LPA present at substantial levels in culture medium and normal skin to generate outward-facing gradients. We measure LPA gradients across the margins of melanomas in vivo, confirming the physiological importance of our results. We conclude that LPA chemotaxis provides a strong drive for melanoma cells to invade outwards. Cells create their own gradients by acting as a sink, breaking down locally present LPA, and thus forming a gradient that is low in the tumour and high in the surrounding areas. The key step is not acquisition of sensitivity to the chemoattractant, but rather the tumour growing to break down enough LPA to form a gradient. Thus the stimulus that drives cell dispersal is not the presence of LPA itself, but the self-generated, outward-directed gradient.

Published

2014

6. T‐cell receptor <scp>αβ</scp> + double‐negative T cells in the kidney are predominantly extravascular and increase in abundance in response to ischemia–reperfusion injury

Author

Sarah L Snelgrove, Olivia Susanto, Louisa Yeung, Pamela Hall, M Ursula Norman, Alexandra J Corbett, A Richard Kitching, and Michael J Hickey

Subjects

Immunology, Immunology and Allergy, Cell Biology

Published

2022

7. T-cell receptor αβ

Author

Sarah L, Snelgrove, Olivia, Susanto, Louisa, Yeung, Pamela, Hall, M Ursula, Norman, Alexandra J, Corbett, A Richard, Kitching, and Michael J, Hickey

Abstract

T-cell receptor

Published

2022

8. Acute myeloid leukemia maturation lineage influences residual disease and relapse following differentiation therapy

Author

Ross A. Dickins, Benjamin T. Kile, Steven Ngo, Andrew C. Perkins, Mark D. McKenzie, Margherita Ghisi, Olivia Susanto, Michael J. Hickey, Helen Mitchell, Peter Kanellakis, Ethan P. Oxley, and Maximilian M. Garwood

Subjects

Neoplasm, Residual, Lineage (genetic), Myeloid, Science, Population, General Physics and Astronomy, Biology, Malignancy, Article, Acute myeloid leukaemia, General Biochemistry, Genetics and Molecular Biology, Differentiation therapy, hemic and lymphatic diseases, medicine, Humans, Progenitor cell, education, education.field_of_study, Multidisciplinary, Myeloid leukemia, Cell Differentiation, General Chemistry, medicine.disease, Cancer therapeutic resistance, Leukemia, Myeloid, Acute, Leukemia, medicine.anatomical_structure, Cancer research

Abstract

Acute myeloid leukemia (AML) is a malignancy of immature progenitor cells. AML differentiation therapies trigger leukemia maturation and can induce remission, but relapse is prevalent and its cellular origin is unclear. Here we describe high resolution analysis of differentiation therapy response and relapse in a mouse AML model. Triggering leukemia differentiation in this model invariably produces two phenotypically distinct mature myeloid lineages in vivo. Leukemia-derived neutrophils dominate the initial wave of leukemia differentiation but clear rapidly and do not contribute to residual disease. In contrast, a therapy-induced population of mature AML-derived eosinophil-like cells persists during remission, often in extramedullary organs. Using genetic approaches we show that restricting therapy-induced leukemia maturation to the short-lived neutrophil lineage markedly reduces relapse rates and can yield cure. These results indicate that relapse can originate from therapy-resistant mature AML cells, and suggest differentiation therapy combined with targeted eradication of mature leukemia-derived lineages may improve disease outcome., Differentiation therapy induces the maturation and clearance of acute myeloid leukemia cells. Here, using a mouse model, the authors show that a specific lineage of mature leukemia-derived cells persists during remission and is responsible for disease relapse.

Published

2021

9. Kedudukan hukum dan hak waris anak hasil inseminasi buatan dari ayah yang telah meninggal

Author

Rachmi Sulistyarini, Siti Hamidah, and Cindy Olivia Susanto

Subjects

Legal position, Artificial insemination, medicine.medical_treatment, media_common.quotation_subject, K1-7720, inseminasi buatan, sperma ayah yang telah meninggal, Law in general. Comparative and uniform law. Jurisprudence, Sharia, Law, Political science, medicine, Inheritance, Civil code, media_common

Abstract

Penelitian ini bertujuan untuk menganalisis Kedudukan Hukum Anak Hasil Inseminasi Buatan Dari Ayah Yang Telah Meninggal Ditinjau Dalam Perspektif Hukum Positif Indonesia serta untuk menemukan Hak Waris Untuk Anak Hasil Inseminasi Buatan Dari Ayah Yang Telah Meninggal Ditinjau Dalam Perspektif Hukum Positif Indonesia. Putusan pengadilan akan mempengaruhi apakah inseminasi buatan dari sel sperma suami yang telah meninggal dapat dilakukan atau tidak. Putusan pengadilan yang memberikan putusan untuk dapat dilakukan akan mempengaruhi kedudukan hukum anak hasil inseminasi buatan dari ayah yang telah meninggal. Bila anak tersebut lahir hidup maka kedudukan hukum anak hasil inseminasi buatan dari ayah yang telah meninggal menurut Kitab Undang-Undang Hukum Perdata adalah anak sah sesuai dengan Pasal 250 KUHPerdata, menurut Hukum Islam kedudukan hukum anak hasil inseminasi buatan dari ayah yang telah meninggal merupakan anak sah, serta menurut hukum adat bahwa anak tersebut merupakan anak sah hal ini dipersamakan dengan mengangkat anak dalam masyarakat adat. Hak waris anak hasil inseminasi buatan dari ayah yang telah meninggal mempunyai hak mewaris.DOI: https://doi.org/10.26905/idjch.v11i3.5475.

Published

2021

10. PF202 MONOLINEAGE ORIGIN OF AML RELAPSE FOLLOWING MULTILINEAGE DIFFERENTIATION THERAPY

Author

S. Jayakrishnan, Benjamin T. Kile, Michael J. Hickey, Maximilian M. Garwood, Olivia Susanto, S. Ngo, Andrew C. Perkins, Mark D. McKenzie, Ross A. Dickins, Margherita Ghisi, Ethan P. Oxley, and Helen Mitchell

Subjects

Differentiation therapy, business.industry, Cancer research, Medicine, Hematology, business

Published

2019

11. LPP3 mediates self-generation of chemotactic LPA gradients by melanoma cells

Author

Sergey Tumanov, Matthew Nielson, Gillian M. Mackay, Peter A. Thomason, Luke Tweedy, Nick Morrice, Andrew J. Muinonen-Martin, Robert H. Insall, Olivia Susanto, Jurre J. Kamphorst, and Yvette W. H. Koh

Subjects

0301 basic medicine, Skin Neoplasms, LPP3, Phosphatase, Cell, Phosphatidate Phosphatase, Biology, Metastasis, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cell Line, Tumor, Lysophosphatidic acid, medicine, Humans, Neoplasm Invasiveness, Melanoma, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Gene knockdown, Chemotaxis, Cell Biology, medicine.disease, Cell biology, LPA, Self-generated gradients, 030104 developmental biology, medicine.anatomical_structure, Enzyme, Biochemistry, chemistry, 030220 oncology & carcinogenesis, lipids (amino acids, peptides, and proteins), Autotaxin, biological phenomena, cell phenomena, and immunity, Lysophospholipids, Research Article

Abstract

Melanoma cells steer out of tumours using self-generated lysophosphatidic acid (LPA) gradients. The cells break down LPA, which is present at high levels around the tumours, creating a dynamic gradient that is low in the tumour and high outside. They then migrate up this gradient, creating a complex and evolving outward chemotactic stimulus. Here, we introduce a new assay for self-generated chemotaxis, and show that raising LPA levels causes a delay in migration rather than loss of chemotactic efficiency. Knockdown of the lipid phosphatase LPP3 – but not of its homologues LPP1 or LPP2 – diminishes the cell's ability to break down LPA. This is specific for chemotactically active LPAs, such as the 18:1 and 20:4 species. Inhibition of autotaxin-mediated LPA production does not diminish outward chemotaxis, but loss of LPP3-mediated LPA breakdown blocks it. Similarly, in both 2D and 3D invasion assays, knockdown of LPP3 diminishes the ability of melanoma cells to invade. Our results demonstrate that LPP3 is the key enzyme in the breakdown of LPA by melanoma cells, and confirm the importance of attractant breakdown in LPA-mediated cell steering. This article has an associated First Person interview with the first author of the paper., Highlighted Article: Melanoma cells can create and follow their own gradients of attractant, via a new mechanism by which tumour cells may undergo metastasis.

Published

2017

12. 2000 - MONOLINEAGE ORIGIN OF RELAPSE FOLLOWING MULTILINEAGE DIFFERENTIATION THERAPY OF ACUTE MYELOID LEUKEMIA

Author

Ross Dickins, Steven Ngo, Ethan Oxley, Margherita Ghisi, Mark McKenzie, Maximilian Garwood, Swathy Jayakrishnan, Olivia Susanto, Helen Mitchell, Michael Hickey, Andrew Perkins, and Benjamin Kile

Subjects

Cancer Research, Myeloid, IDH1, business.industry, Myeloid leukemia, Cell Biology, Hematology, Eosinophil, chemistry.chemical_compound, medicine.anatomical_structure, Immunophenotyping, chemistry, Differentiation therapy, In vivo, hemic and lymphatic diseases, Genetics, medicine, Cancer research, Arsenic trioxide, business, neoplasms, Molecular Biology

Abstract

Acute myeloid leukaemia (AML) is characterized by the accumulation of transformed immature myeloid blasts. While most AML patients treated with standard therapy have poor outcomes, in the APL disease subtype retinoic acid induces leukaemia maturation and can be curative in combination with arsenic trioxide. Recently approved mutant IDH1/2 inhibitors also induce AML maturation, renewing interest in AML differentiation therapy. To examine differentiation therapy dynamics in vivo we have generated a novel mouse AML model driven by reversible RNAi-mediated knockdown of the myeloid transcription factor PU.1. Restoration of endogenous PU.1 in established AML in vivo triggers synchronous differentiation of leukemic blasts and disease clearance. However, despite near-complete remission, mice reproducibly relapse with immature AML. Notably, in vivo time course studies reveal that one week after PU.1 restoration leukemic blasts differentiate into two mature myeloid lineages with distinct immunophenotype and morphology. AML-derived SSClowLy6G+ cells resembling neutrophils initially predominate but are rapidly eradicated in vivo. In contrast, high resolution flow and imaging indicates that mature AML-derived SSChighF4/80+SigF+ eosinophil-like cells persist at low numbers in specific organs during disease remission and appear to seed relapse. In mice transplanted with AML blasts lacking the essential eosinophil lineage transcription factor GATA1, in vivo PU.1 restoration triggers neutrophil but not eosinophil lineage differentiation and thereby eliminates residual disease. These results demonstrate that AML differentiation therapy can produce long-lived sublineages of mature AML-derived cells from which relapse can originate. Understanding the multilineage potential of AML blasts in individual patients may inform new strategies to improve differentiation therapy outcomes.

Published

2019

13. Mouse granzyme A induces a novel death with writhing morphology that is mechanistically distinct from granzyme B-induced apoptosis

Author

Sarah E. Stewart, Ilia Voskoboinik, Phillip I. Bird, Sarah Ellis, Olivia Susanto, M Hagn, Joseph A. Trapani, Nigel J. Waterhouse, S Asquith, Daniella Brasacchio, and Karin A Sedelies

Subjects

Programmed cell death, Apoptosis, Biology, Time-Lapse Imaging, Granzymes, Mice, Cell Line, Tumor, Animals, Humans, Cytotoxic T cell, Oxazoles, Molecular Biology, Original Paper, Microscopy, Confocal, Perforin, Cell Biology, Bridged Bicyclo Compounds, Heterocyclic, Actin cytoskeleton, Molecular biology, Cell biology, Killer Cells, Natural, Mice, Inbred C57BL, Granzyme B, Actin Cytoskeleton, Granzyme, biology.protein, Granzyme A, Thiazolidines, Marine Toxins, HeLa Cells

Abstract

Human and mouse granzyme (Gzm)B both induce target cell apoptosis in concert with pore-forming perforin (Pfp); however the mechanisms by which other Gzms induce non-apoptotic death remain controversial and poorly characterised. We used timelapse microscopy to document, quantitatively and in real time, the death of target cells exposed to primary natural killer (NK) cells from mice deficient in key Gzms. We found that in the vast majority of cases, NK cells from wild-type mice induced classic apoptosis. However, NK cells from syngeneic Gzm B-deficient mice induced a novel form of cell death characterised by slower kinetics and a pronounced, writhing, 'worm-like' morphology. Dying cells initially contracted but did not undergo membrane blebbing, and annexin-V staining was delayed until the onset of secondary necrosis. As it is different from any cell death process previously reported, we tentatively termed this cell death 'athetosis'. Two independent lines of evidence showed this alternate form of death was due to Gzm A: first, cell death was revealed in the absence of Gzm B, but was completely lost when the NK cells were deficient in both Gzm A and B; second, the athetotic morphology was precisely reproduced when recombinant mouse Gzm A was delivered by an otherwise innocuous dose of recombinant Pfp. Gzm A-mediated athetosis did not require caspase activation, early mitochondrial disruption or generation of reactive oxygen species, but did require an intact actin cytoskeleton and was abolished by latrunculin B and mycalolide B. This work defines an authentic role for mouse Gzm A in granule-induced cell death by cytotoxic lymphocytes.

Published

2013

14. Perforin forms transient pores on the target cell plasma membrane to facilitate rapid access of granzymes during killer cell attack

Author

Angus P. R. Johnston, Ruby H. P. Law, Joseph A. Trapani, James C. Whisstock, Helen R. Saibil, Jamie A. Lopez, Catherina H. Bird, Natalya Lukoyanova, Olivia Susanto, Misty R. Jenkins, Vivien R. Sutton, Ilia Voskoboinik, and Phillip I. Bird

Subjects

Pore Forming Cytotoxic Proteins, Time Factors, Synaptic cleft, Immunology, Apoptosis, Complement Membrane Attack Complex, Biochemistry, Exocytosis, Granzymes, Immunological synapse, Cell membrane, Jurkat Cells, Mice, medicine, Animals, Humans, Cytotoxic T cell, biology, Perforin, Cell Membrane, Cell Biology, Hematology, Endocytosis, Cell biology, Killer Cells, Natural, medicine.anatomical_structure, Granzyme, biology.protein, Complement membrane attack complex, HeLa Cells, T-Lymphocytes, Cytotoxic

Abstract

Cytotoxic lymphocytes serve a key role in immune homeostasis by eliminating virus-infected and transformed target cells through the perforin-dependent delivery of proapoptotic granzymes. However, the mechanism of granzyme entry into cells remains unresolved. Using biochemical approaches combined with time-lapse microscopy of human primary cytotoxic lymphocytes engaging their respective targets, we defined the time course of perforin pore formation in the context of the physiological immune synapse. We show that, on recognition of targets, calcium influx into the lymphocyte led to perforin exocytosis and target cell permeabilization in as little as 30 seconds. Within the synaptic cleft, target cell permeabilization by perforin resulted in the rapid diffusion of extracellular milieu-derived granzymes. Repair of these pores was initiated within 20 seconds and was completed within 80 seconds, thus limiting granzyme diffusion. Remarkably, even such a short time frame was sufficient for the delivery of lethal amounts of granzymes into the target cell. Rapid initiation of apoptosis was evident from caspase-dependent target cell rounding within 2 minutes of perforin permeabilization. This study defines the final sequence of events controlling cytotoxic lymphocyte immune defense, in which perforin pores assemble on the target cell plasma membrane, ensuring efficient delivery of lethal granzymes.

Published

2013

15. Visualizing Cancer Cell Chemotaxis and Invasion in 2D and 3D

Author

Olivia, Susanto, Andrew J, Muinonen-Martin, Max, Nobis, and Robert H, Insall

Subjects

Cell Movement, Cell Line, Tumor, Chemotaxis, Neoplasms, Cell Culture Techniques, Tumor Cells, Cultured, Animals, Humans, Cell Line, Transformed, Rats

Abstract

We describe three chemotaxis assays-Insall chambers, circular invasion assays, and 3D organotypic assays-that are particularly appropriate for measuring migration of cancer cells in response to gradients of soluble attractants. Each assay has defined advantages, and together they provide the best possible quantitative assessment of cancer chemotaxis.

Published

2016

16. Self-generated chemotactic gradients-cells steering themselves

Author

Robert H. Insall, Olivia Susanto, and Luke Tweedy

Subjects

0301 basic medicine, Feedback, Physiological, Chemotactic Factors, Chemotaxis, Cell Biology, Biology, Cell biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immunology, Proteolysis, Animals, Humans, 030217 neurology & neurosurgery

Abstract

Chemotaxis is a fundamentally important part of biology, but we know very little about how gradients of chemoattractant are formed. One answer is self-generated gradients, in which the moving cells break down the attractant to provide their own gradient as they migrate. Here we discuss where self-generated gradients are known, how they can be recognized, and where they are likely to be found in the future.

Published

2016

17. Visualizing Cancer Cell Chemotaxis and Invasion in 2D and 3D

Author

Max Nobis, Olivia Susanto, Andrew J. Muinonen-Martin, and Robert H. Insall

Subjects

0301 basic medicine, Melanoma, Cancer, Chemotaxis, Cell migration, Biology, medicine.disease, Metastasis, Cell biology, 03 medical and health sciences, 030104 developmental biology, Cancer cell, medicine, Quantitative assessment

Abstract

We describe three chemotaxis assays-Insall chambers, circular invasion assays, and 3D organotypic assays-that are particularly appropriate for measuring migration of cancer cells in response to gradients of soluble attractants. Each assay has defined advantages, and together they provide the best possible quantitative assessment of cancer chemotaxis.

Published

2016

18. Controversies in granzyme biology

Author

Joseph A. Trapani, Olivia Susanto, and Daniella Brasacchio

Subjects

Proteases, biology, Immunology, General Medicine, Biochemistry, Immune system, Granzyme, Perforin, Caspase activation, Genetics, biology.protein, Immunology and Allergy, Substrate specificity, Cytotoxic T cell

Abstract

Granzymes (Grz) are a family of serine proteases found in the granules of cytotoxic lymphocytes and are emerging as an important group of proteins involved in immune function and surveillance. Grz have both cytotoxic and more recently reported non-cytotoxic roles, however these functions are still subject to thorough investigation. The significance of the cytotoxic and importantly the non-cytotoxic roles of Grz will be discussed in this review, detailing accepted and controversial functions.

Published

2012

19. First person – Olivia Susanto

Author

Olivia Susanto

Subjects

0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, Psychoanalysis, First person, Cell Biology, Biology

Abstract

First Person is a series of interviews with the first authors of a selection of papers published in Journal of Cell Science, helping early-career researchers promote themselves alongside their papers. Olivia Susanto is the first author on ‘LPP3 mediates self-generation of chemotactic LPA gradients by melanoma cells’, published in Journal of Cell Science. Olivia is a postdoctoral researcher in the lab of Prof. Robert Insall at the Beaton Institute in Glasgow, UK, where she focuses on imaging live cell interactions and cell migration both in vivo and in vitro, in cell biology and immunology.

Published

2017

20. Protection from Endogenous Perforin: Glycans and the C Terminus Regulate Exocytic Trafficking in Cytotoxic Lymphocytes

Author

Olivia Susanto, James C. Whisstock, Sarah Ellis, Kylie A. Browne, Ilia Voskoboinik, Joseph A. Trapani, Sandra Verschoor, Jenny Chia, Hideo Yagita, Annette Ciccone, Jamie A. Lopez, and Amelia J. Brennan

Subjects

Glycosylation, Immunology, chemical and pharmacologic phenomena, Endoplasmic Reticulum, Exocytosis, Article, Cell Line, Mice, symbols.namesake, Cell Movement, Polysaccharides, Animals, Humans, Immunology and Allergy, Cytotoxic T cell, Mice, Knockout, biology, Perforin, Perforin Deficiency, Endoplasmic reticulum, Degranulation, hemic and immune systems, Golgi apparatus, Rats, Cell biology, Granzyme B, Infectious Diseases, Granzyme, Biochemistry, Mutation, biology.protein, symbols, Autolysis, T-Lymphocytes, Cytotoxic

Abstract

SummaryCytotoxic lymphocyte-mediated apoptosis is dependent on the delivery of perforin to secretory granules and its ability to form calcium-dependent pores in the target cell after granule exocytosis. It is unclear how cytotoxic lymphocytes synthesize and store perforin without incurring damage or death. We discovered that the extreme C terminus of perforin was essential for rapid trafficking from the endoplasmic reticulum to the Golgi compartment. Substitution of the C-terminal tryptophan residue resulted in retention of perforin in the ER followed by calcium-dependent toxic activity that eliminated host cells. We also found that N-linked glycosylation of perforin was critical for transport from the Golgi to secretory granules. Overall, an intact C terminus and N-linked glycosylation provide accurate and efficient export of perforin from the endoplasmic reticulum to the secretory granules and are critical for cytotoxic lymphocyte survival.

Published

2011

21. Melanoma cells break down LPA to establish local gradients that drive chemotactic dispersal

Author

Robert Herd, Douwe M. Veltman, Andrew J. Muinonen-Martin, Colin R Lindsay, Gabriela Kalna, Olivia Susanto, David A. Knecht, Owen J. Sansom, William J. Faller, Laura M. Machesky, Elizabeth Smethurst, Dorothy C. Bennett, Robert Jones, Qifeng Zhang, Robert H. Insall, and Michael J.O. Wakelam

Subjects

Biochemistry, Metastasis, Mice, 0302 clinical medicine, Cell Movement, Basic Cancer Research, Molecular Cell Biology, Medicine and Health Sciences, Biology (General), Neoplasm Metastasis, 10. No inequality, Melanoma, Cytoskeleton, 0303 health sciences, General Neuroscience, Chemotaxis, Fatty Acids, Cell migration, Lipids, 3. Good health, Cell biology, Oncology, 030220 oncology & carcinogenesis, Intercellular Signaling Peptides and Proteins, lipids (amino acids, peptides, and proteins), Cellular Structures and Organelles, General Agricultural and Biological Sciences, Research Article, QH301-705.5, Biology, General Biochemistry, Genetics and Molecular Biology, QH301, 03 medical and health sciences, Chemorepulsion, Animals, neoplasms, Theoretical Biology, 030304 developmental biology, LPAR1, General Immunology and Microbiology, Contact inhibition, Biology and Life Sciences, Cell Biology, Lipid Metabolism, Positive chemotaxis, Cancer cell, Immunology, Lysophospholipids, Chemotaxis assay

Abstract

Melanoma cells break down lysophosphatidic acid from the environment, creating a chemotactic gradient that the tumor cells then follow; this provides an explanation for the rapid metastasis of melanoma., The high mortality of melanoma is caused by rapid spread of cancer cells, which occurs unusually early in tumour evolution. Unlike most solid tumours, thickness rather than cytological markers or differentiation is the best guide to metastatic potential. Multiple stimuli that drive melanoma cell migration have been described, but it is not clear which are responsible for invasion, nor if chemotactic gradients exist in real tumours. In a chamber-based assay for melanoma dispersal, we find that cells migrate efficiently away from one another, even in initially homogeneous medium. This dispersal is driven by positive chemotaxis rather than chemorepulsion or contact inhibition. The principal chemoattractant, unexpectedly active across all tumour stages, is the lipid agonist lysophosphatidic acid (LPA) acting through the LPA receptor LPAR1. LPA induces chemotaxis of remarkable accuracy, and is both necessary and sufficient for chemotaxis and invasion in 2-D and 3-D assays. Growth factors, often described as tumour attractants, cause negligible chemotaxis themselves, but potentiate chemotaxis to LPA. Cells rapidly break down LPA present at substantial levels in culture medium and normal skin to generate outward-facing gradients. We measure LPA gradients across the margins of melanomas in vivo, confirming the physiological importance of our results. We conclude that LPA chemotaxis provides a strong drive for melanoma cells to invade outwards. Cells create their own gradients by acting as a sink, breaking down locally present LPA, and thus forming a gradient that is low in the tumour and high in the surrounding areas. The key step is not acquisition of sensitivity to the chemoattractant, but rather the tumour growing to break down enough LPA to form a gradient. Thus the stimulus that drives cell dispersal is not the presence of LPA itself, but the self-generated, outward-directed gradient., Author Summary Melanoma is feared because it spreads very rapidly when tumours are relatively small. It is not known why this metastasis is so efficient and aggressive. In particular, it is not known what drives melanoma cells to start to migrate out from the tumour. Here, we have studied the chemical signals that guide the migration of melanoma cells. We find that a component of serum, lysophosphatidic acid (LPA), functions as a remarkably strong attractant for all of the melanoma cells that we examined. We also observe that melanoma cells rapidly break down LPA. We conclude that melanomas create their own gradients of LPA, with low LPA in the tumour and high LPA outside. Since melanoma cells are attracted by LPA, this LPA gradient around the melanomas serves as a signal that drives the tumour cells out into the surrounding skin and blood vessels. Finally, we show that such gradients exist in a mouse model of melanoma. Self-generated LPA gradients are therefore an intriguing new driver for melanoma dispersal.

Published

2014

22. A functional genomics screen identifies PCAF and ADA3 as regulators of human granzyme B-mediated apoptosis and Bid cleavage

Author

Colin M. House, Daniella Brasacchio, Joseph A. Trapani, Amelia J. Brennan, Tahereh Noori, Ricky W. Johnstone, Olivia Susanto, Phillip I. Bird, and Kaylene J. Simpson

Subjects

Programmed cell death, Truncated BID, Apoptosis, Transfection, Granzymes, Mice, Cytotoxic T cell, Animals, Humans, p300-CBP Transcription Factors, Molecular Biology, Original Paper, biology, Perforin, Intrinsic apoptosis, Cell Biology, Genomics, HCT116 Cells, Molecular biology, Mitochondria, Granzyme B, Granzyme, PCAF, biology.protein, BH3 Interacting Domain Death Agonist Protein, HeLa Cells, Signal Transduction, Transcription Factors

Abstract

The human lymphocyte toxins granzyme B (hGrzB) and perforin cooperatively induce apoptosis of virus-infected or transformed cells: perforin pores enable entry of the serine protease hGrzB into the cytosol, where it processes Bid to selectively activate the intrinsic apoptosis pathway. Truncated Bid (tBid) induces Bax/Bak-dependent mitochondrial outer membrane permeability and the release of cytochrome c and Smac/Diablo. To identify cellular proteins that regulate perforin/hGrzB-mediated Bid cleavage and subsequent apoptosis, we performed a gene-knockdown (KD) screen using a lentiviral pool of short hairpin RNAs embedded within a miR30 backbone (shRNAmiR). We transduced HeLa cells with a lentiviral pool expressing shRNAmiRs that target 1213 genes known to be involved in cell death signaling and selected cells with acquired resistance to perforin/hGrzB-mediated apoptosis. Twenty-two shRNAmiRs were identified in the positive-selection screen including two, PCAF and ADA3, whose gene products are known to reside in the same epigenetic regulatory complexes. Small interfering (si)RNA-mediated gene-KD of PCAF or ADA3 also conferred resistance to perforin/hGrzB-mediated apoptosis providing independent validation of the screen results. Mechanistically, PCAF and ADA3 exerted their pro-apoptotic effect upstream of mitochondrial membrane permeabilization, as indicated by reduced cytochrome c release in PCAF-KD cells exposed to perforin/hGrzB. While overall levels of Bid were unaltered, perforin/hGrzB-mediated cleavage of Bid was reduced in PCAF-KD or ADA3-KD cells. We discovered that PCAF-KD or ADA3-KD resulted in reduced expression of PACS2, a protein implicated in Bid trafficking to mitochondria and importantly, targeted PACS2-KD phenocopied the effect of PCAF-KD or ADA3-KD. We conclude that PCAF and ADA3 regulate Bid processing via PACS2, to modulate the mitochondrial cell death pathway in response to hGrzB.

Published

2014

23. Granule-mediated death by cytotoxic lymphocytes does not require mitochondrial polarization toward the immunologic synapse in target cells

Author

Joseph A. Trapani, Olivia Susanto, Karin A Sedelies, and Nigel J. Waterhouse

Subjects

medicine.medical_specialty, Programmed cell death, Hematology, biology, Lymphocyte, Immunology, Granule (cell biology), Cell Biology, Mitochondrion, Biochemistry, Cell biology, medicine.anatomical_structure, Granzyme, Internal medicine, Cell polarity, medicine, biology.protein, Cytotoxic T cell

Abstract

To the editor: A recent article in Blood [1][1] reported that mitochondrial polarization to the immunologic synapse (IS) was required for cytotoxic lymphocyte (CL)–induced death of cells that overexpress Bcl-2. This potentially represented a significant advance in understanding CL-induced death

Published

2009

24. Immunity, Granzymes and Cell Killing

Author

Nigel J Waterhouse, Olivia Susanto, Karin A Sedelies, and Joseph A Trapani

Published

2009

25. Blocking granule-mediated death by primary human NK cells requires both protection of mitochondria and inhibition of caspase activity

Author

Joseph A. Trapani, Vivien R. Sutton, John Silke, Christopher J.P. Clarke, Phillip I. Bird, Douglas R. Green, Jane Oliaro, Fiona L. Scott, Annette Ciccone, Nigel J. Waterhouse, Ricky W. Johnstone, Karin A Sedelies, and Olivia Susanto

Subjects

Programmed cell death, Time Factors, Cell Culture Techniques, Apoptosis, X-Linked Inhibitor of Apoptosis Protein, Cysteine Proteinase Inhibitors, Transfection, Granzymes, Permeability, Amino Acid Chloromethyl Ketones, Cytotoxic T cell, Humans, Protease Inhibitors, Molecular Biology, Caspase, Cells, Cultured, biology, NLRP1, Secretory Vesicles, Cell Biology, Dipeptides, Caspase Inhibitors, Cell biology, Mitochondria, Enzyme Activation, Killer Cells, Natural, Granzyme, Proto-Oncogene Proteins c-bcl-2, Cell culture, Caspases, Mitochondrial Membranes, biology.protein, HeLa Cells

Abstract

Human GraB (hGraB) preferentially induces apoptosis via Bcl-2-regulated mitochondrial damage but can also directly cleave caspases and caspase substrates in cell-free systems. How hGraB kills cells when it is delivered by cytotoxic lymphocytes (CL) and the contribution of hGraB to CL-induced death is still not clear. We show that primary human natural killer (hNK) cells, which specifically used hGraB to induce target cell death, were able to induce apoptosis of cells whose mitochondria were protected by Bcl-2. Purified hGraB also induced apoptosis of Bcl-2-overexpressing targets but only when delivered at 5- to 10-fold the concentration required to kill cells expressing endogenous Bcl-2. Caspases were critical in this process as inhibition of caspase activity permitted clonogenic survival of Bcl-2-overexpressing cells treated with hGraB or hNK cells but did not protect cells that only expressed endogenous Bcl-2. Our data therefore show that hGraB triggers caspase activation via mitochondria-dependent and mitochondria-independent mechanisms that are activated in a hierarchical manner, and that the combined effects of Bcl-2 and direct caspase inhibition can block cell death induced by hGraB and primary hNK cells.

Published

2008

26. Kedudukan hukum dan hak waris anak hasil inseminasi buatan dari ayah yang telah meninggal

Author

Cindy Olivia Susanto, Siti Hamidah Siti Hamidah, and Rachmi Sulistyarini Rachmi Sulistyarini

Subjects

inheritance, artificial insemination, legal position., Law

Abstract

This research aims to analyze Artificial Insemination Children’s Standing anddiscover Their Hereditary Right from a Deceased Father viewed in Indonesia’sPositive Law. Judgment will affect to whether artificial insemination from the deceasedhusband’s sperm can be performed or not. Further, the judgment that decidethe artificial insemination can be performed will affect children’s standing from adeceased father. If the children are born alive, then the standing is legal based on Article 250 of Civil Code, Islamic Law (Sharia law), and customary law. In addition,customary law claims the standing as adopt them on culture. Artificial inseminationchildren’s hereditary right from a deceased father has the right to inherit (asheir). How to cite item: Susanto, C., Siti Hamidah, S., Rachmi Sulistyarini, R. (2020). Kedudukan hukum dan hak waris anak hasil inseminasi buatan dari ayah yang telah meninggal. Jurnal Cakrawala Hukum, 11(3). 302-312.doi:10.26905/idjch.v11i3.5475.

Published

2020