Your search keyword '"Christopher J. Kemp"' showing total 258 results

1. Alpha-synuclein inclusion responsive microglia are resistant to CSF1R inhibition

Author

Anna C. Stoll, Christopher J. Kemp, Joseph R. Patterson, Michael Kubik, Nathan Kuhn, Matthew Benskey, Megan F. Duffy, Kelvin C. Luk, and Caryl E. Sortwell

Subjects

PLX3397, Neuroinflammation, Parkinson’s disease, Synucleinopathy, Major-histocompatibility complex-II, Neurodegeneration, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Parkinson’s disease (PD) is a neurodegenerative disorder that is characterized by the presence of proteinaceous alpha-synuclein (α-syn) inclusions (Lewy bodies), markers of neuroinflammation and the progressive loss of nigrostriatal dopamine (DA) neurons. These pathological features can be recapitulated in vivo using the α-syn preformed fibril (PFF) model of synucleinopathy. We have previously determined that microglia proximal to PFF-induced nigral α-syn inclusions increase in soma size, upregulate major-histocompatibility complex-II (MHC-II) expression, and increase expression of a suite of inflammation-associated transcripts. This microglial response is observed months prior to degeneration, suggesting that microglia reacting to α-syn inclusion may contribute to neurodegeneration and could represent a potential target for novel therapeutics. The goal of this study was to determine whether colony stimulating factor-1 receptor (CSF1R)-mediated microglial depletion impacts the magnitude of α-syn aggregation, nigrostriatal degeneration, or the response of microglial in the context of the α-syn PFF model. Methods Male Fischer 344 rats were injected intrastriatally with either α-syn PFFs or saline. Rats were continuously administered Pexidartinib (PLX3397B, 600 mg/kg), a CSF1R inhibitor, to deplete microglia for a period of either 2 or 6 months. Results CSF1R inhibition resulted in significant depletion (~ 43%) of ionized calcium-binding adapter molecule 1 immunoreactive (Iba-1ir) microglia within the SNpc. However, CSF1R inhibition did not impact the increase in microglial number, soma size, number of MHC-II immunoreactive microglia or microglial expression of Cd74, Cxcl10, Rt-1a2, Grn, Csf1r, Tyrobp, and Fcer1g associated with phosphorylated α-syn (pSyn) nigral inclusions. Further, accumulation of pSyn and degeneration of nigral neurons was not impacted by CSF1R inhibition. Paradoxically, long term CSF1R inhibition resulted in increased soma size of remaining Iba-1ir microglia in both control and PFF rats, as well as expression of MHC-II in extranigral regions. Conclusions Collectively, our results suggest that CSF1R inhibition does not impact the microglial response to nigral pSyn inclusions and that CSF1R inhibition is not a viable disease-modifying strategy for PD.

Published

2024

2. Transcriptomic profiling of early synucleinopathy in rats induced with preformed fibrils

Author

Joseph R. Patterson, Joseph Kochmanski, Anna C. Stoll, Michael Kubik, Christopher J. Kemp, Megan F. Duffy, Kajene Thompson, Jacob W. Howe, Allyson Cole-Strauss, Nathan C. Kuhn, Kathryn M. Miller, Seth Nelson, Christopher U. Onyekpe, John S. Beck, Scott E. Counts, Alison I. Bernstein, Kathy Steece-Collier, Kelvin C. Luk, and Caryl E. Sortwell

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Examination of early phases of synucleinopathy when inclusions are present, but long before neurodegeneration occurs, is critical to both understanding disease progression and the development of disease modifying therapies. The rat alpha-synuclein (α-syn) preformed fibril (PFF) model induces synchronized synucleinopathy that recapitulates the pathological features of Parkinson’s disease (PD) and can be used to study synucleinopathy progression. In this model, phosphorylated α-syn (pSyn) inclusion-containing neurons and reactive microglia (major histocompatibility complex-II immunoreactive) peak in the substantia nigra pars compacta (SNpc) months before appreciable neurodegeneration. However, it remains unclear which specific genes are driving these phenotypic changes. To identify transcriptional changes associated with early synucleinopathy, we used laser capture microdissection of the SNpc paired with RNA sequencing (RNASeq). Precision collection of the SNpc allowed for the assessment of differential transcript expression in the nigral dopamine neurons and proximal glia. Transcripts upregulated in early synucleinopathy were mainly associated with an immune response, whereas transcripts downregulated were associated with neurotransmission and the dopamine pathway. A subset of 29 transcripts associated with neurotransmission/vesicular release and the dopamine pathway were verified in a separate cohort of males and females to confirm reproducibility. Within this subset, fluorescent in situ hybridization (FISH) was used to localize decreases in the Syt1 and Slc6a3 transcripts to pSyn inclusion-containing neurons. Identification of transcriptional changes in early synucleinopathy provides insight into the molecular mechanisms driving neurodegeneration.

Published

2024

3. Neuroinflammatory gene expression profiles of reactive glia in the substantia nigra suggest a multidimensional immune response to alpha synuclein inclusions

Author

Anna C. Stoll, Christopher J. Kemp, Joseph R. Patterson, Jacob W. Howe, Kathy Steece-Collier, Kelvin C. Luk, Caryl E. Sortwell, and Matthew J. Benskey

Subjects

Glia, Microglia, Astrocyte, Alpha-synuclein, Neuroinflammation, Parkinson's disease, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Parkinson's disease (PD) pathology is characterized by alpha-synuclein (α-syn) aggregates, degeneration of dopamine neurons in the substantia nigra pars compacta (SNpc), and neuroinflammation. The presence of reactive glia correlates with deposition of pathological α-syn in early-stage PD. Thus, understanding the neuroinflammatory response of microglia and astrocytes to synucleinopathy may identify therapeutic targets. Here we characterized the neuroinflammatory gene expression profile of reactive microglia and astrocytes in the SNpc during early synucleinopathy in the rat α-syn pre-formed fibril (PFF) model. Rats received intrastriatal injection of α-syn PFFs and expression of immune genes was quantified with droplet digital PCR (ddPCR), after which fluorescent in situ hybridization (FISH) was used to localize gene expression to microglia or astrocytes in the SNpc. Genes previously associated with reactive microglia (Cd74, C1qa, Stat1, Axl, Casp1, Il18, Lyz2) and reactive astrocytes (C3, Gbp2, Serping1) were significantly upregulated in the SN of PFF injected rats. Localization of gene expression to SNpc microglia near α-syn aggregates identified a unique α-syn aggregate microglial gene expression profile characterized by upregulation of Cd74, Cxcl10, Rt-1a2, Grn, Csf1r, Tyrobp, C3, C1qa, Serping1 and Fcer1g. Importantly, significant microglial upregulation of Cd74 and C3 were only observed following injection of α-syn PFFs, not α-syn monomer, confirming specificity to α-syn aggregation. Serping1 expression also localized to astrocytes in the SNpc. Interestingly, C3 expression in the SNpc localized to microglia at 2- and 4-months post-PFF, but to astrocytes at 6-months post-PFF. We also observed expression of Rt1-a2 and Cxcl10 in SNpc dopamine neurons. Cumulatively our results identify a dynamic, yet reproducible gene expression profile of reactive microglia and astrocytes associated with early synucleinopathy in the rat SNpc.

Published

2024

4. Case report: ex vivo tumor organoid drug testing identifies therapeutic options for stage IV ovarian carcinoma

Author

Marwah Al-Aloosi, Amanda M. Prechtl, Payel Chatterjee, Brady Bernard, Christopher J. Kemp, Rachele Rosati, Robert L. Diaz, Lauren R. Appleyard, Shalini Pereira, Alex Rajewski, Amber McDonald, Eva J. Gordon, and Carla Grandori

Subjects

low grade serous ovarian cancer, functional precision medicine, tumor organoids, medium-throughput drug screen, fulvestrant, everolimus, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Patients presenting with stage 4 ovarian carcinoma, including low-grade serous disease, have a poor prognosis. Although platinum-based therapies can offer some response, these therapies are associated with many side effects, and treatment resistance often develops. Toxic side effects along with disease progression render patients unable to receive additional lines of treatment and limit their options to hospice or palliative care. In this case report, we describe a patient with an unusual case of metastatic low-grade serous ovarian cancer with some features of high-grade disease who had received four previous lines of treatment and was suffering from atelectasis, pulmonary embolism, and hydronephrosis. A CLIA-certified drug sensitivity assay of an organoid culture derived from the patient’s tumor (PARIS® test) identified several therapeutic options, including the combination of fulvestrant with everolimus. On this treatment regimen, the patient experienced 7 months of stable disease and survived nearly 11 months before succumbing to her disease. This case emphasizes the clinical utility of ex vivo drug testing as a new functional precision medicine approach to identify, in real-time, personalized treatment options for patients, especially those who are not benefiting from standard of care treatments.

Published

2024

5. Extraordinary clinical response to ibrutinib in low-grade ovarian cancer guided by organoid drug testing

Author

Heidi J. Gray, Payel Chatterjee, Rachele Rosati, Lauren R. Appleyard, Grace J. Durenberger, Robert L. Diaz, Hallie A. Swan, Danielle Peretti, Maddy Pollastro, Trevor Ainge, Katannya Kapeli, Shalini Pereira, Astrid L. Margossian, Kalyan Banda, Barbara A. Goff, Elizabeth M. Swisher, Brady Bernard, Christopher J. Kemp, and Carla Grandori

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Low-grade serous ovarian cancer (LGSOC) typically responds poorly to standard platinum-based chemotherapy and new therapeutic approaches are needed. We describe a remarkable response to targeted therapy in a patient with platinum-resistant, advanced LGSOC who had failed standard-of-care chemotherapy and two surgeries. The patient was in rapid decline and entering hospice care on home intravenous (i.v.) opioid analgesics and a malignant bowel obstruction requiring a G-tube. Genomic analysis of the patient’s tumor did not indicate obvious therapeutic options. In contrast, a CLIA-certified drug sensitivity assay of an organoid culture derived from the patient’s tumor identified several therapeutic choices, including Bruton’s tyrosine kinase (BTK) inhibitor ibrutinib, as well as the EGFR inhibitors afatinib and erlotinib. Following off-label administration of daily ibrutinib as monotherapy, the patient had an exceptional clinical turnaround over the following 65 weeks with normalization of CA-125 levels, resolution of the malignant bowel obstruction, halting of pain medications, and improvement of performance status from ECOG 3 to ECOG 1. After 65 weeks of stable disease, the patient’s CA-125 levels began to rise, at which point the patient discontinued ibrutinib and began taking afatinib as monotherapy. The patient’s CA-125 levels remained stable for an additional 38 weeks but due to anemia and rising CA-125 levels, the patient switched to erlotinib and is currently being monitored. This case highlights the clinical utility of ex vivo drug testing of patient-derived tumor organoids as a new functional precision medicine approach to identify effective personalized therapies for patients who have failed standard-of-care treatments.

Published

2023

6. Beta2-adrenoreceptor agonist clenbuterol produces transient decreases in alpha-synuclein mRNA but no long-term reduction in protein

Author

Joseph R. Patterson, Warren D. Hirst, Jacob W. Howe, Christopher P. Russell, Allyson Cole-Strauss, Christopher J. Kemp, Megan F. Duffy, Jared Lamp, Andrew Umstead, Michael Kubik, Anna C. Stoll, Irving E. Vega, Kathy Steece-Collier, Yi Chen, Anne C. Campbell, Catherine L. Nezich, Kelly E. Glajch, and Caryl E. Sortwell

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract β2-adrenoreceptor (β2AR) agonists have been associated with a decreased risk of developing Parkinson’s disease (PD) and are hypothesized to decrease expression of both alpha-synuclein mRNA (Snca) and protein (α-syn). Effects of β2AR agonist clenbuterol on the levels of Snca mRNA and α-syn protein were evaluated in vivo (rats and mice) and in rat primary cortical neurons by two independent laboratories. A modest decrease in Snca mRNA in the substantia nigra was observed after a single acute dose of clenbuterol in rats, however, this decrease was not maintained after multiple doses. In contrast, α-syn protein levels remained unchanged in both single and multiple dosing paradigms. Furthermore, clenbuterol did not decrease Snca in cultured rat primary cortical neurons, or decrease Snca or α-syn in mice. Additionally, compared to the single-dose paradigm, repeat dosing resulted in substantially lower levels of clenbuterol in plasma and brain tissue in rodents. Based on our observations of a transient decrease in Snca and no effect on α-syn protein in this preclinical study, these data support the conclusion that clenbuterol is not likely a viable disease-modifying strategy for PD.

Published

2022

7. SL-Cloud: A Cloud-based resource to support synthetic lethal interaction discovery [version 2; peer review: 2 approved]

Author

Bahar Tercan, Guangrong Qin, Taek-Kyun Kim, Boris Aguilar, John Phan, William Longabaugh, David Pot, Christopher J. Kemp, Nyasha Chambwe, and Ilya Shmulevich

Subjects

Software Tool Article, Articles, synthetic lethality, cloud computing, cancer genomics, cancer dependency, systems biology, functional genomics

Abstract

Synthetic lethal interactions (SLIs), genetic interactions in which the simultaneous inactivation of two genes leads to a lethal phenotype, are promising targets for therapeutic intervention in cancer, as exemplified by the recent success of PARP inhibitors in treating BRCA1/2-deficient tumors. We present SL-Cloud, a new component of the Institute for Systems Biology Cancer Gateway in the Cloud (ISB-CGC), that provides an integrated framework of cloud-hosted data resources and curated workflows to enable facile prediction of SLIs. This resource addresses two main challenges related to SLI inference: the need to wrangle and preprocess large multi-omic datasets and the availability of multiple comparable prediction approaches. SL-Cloud enables customizable computational inference of SLIs and testing of prediction approaches across multiple datasets. We anticipate that cancer researchers will find utility in this tool for discovery of SLIs to support further investigation into potential drug targets for anticancer therapies.

Published

2022

8. SL-Cloud: A Cloud-based resource to support synthetic lethal interaction discovery [version 2; peer review: 2 approved]

Author

William Longabaugh, John Phan, Christopher J. Kemp, David Pot, Guangrong Qin, Bahar Tercan, Boris Aguilar, Taek-Kyun Kim, Ilya Shmulevich, and Nyasha Chambwe

Subjects

synthetic lethality, cloud computing, cancer genomics, cancer dependency, systems biology, functional genomics, eng, Medicine, Science

Abstract

Synthetic lethal interactions (SLIs), genetic interactions in which the simultaneous inactivation of two genes leads to a lethal phenotype, are promising targets for therapeutic intervention in cancer, as exemplified by the recent success of PARP inhibitors in treating BRCA1/2-deficient tumors. We present SL-Cloud, a new component of the Institute for Systems Biology Cancer Gateway in the Cloud (ISB-CGC), that provides an integrated framework of cloud-hosted data resources and curated workflows to enable facile prediction of SLIs. This resource addresses two main challenges related to SLI inference: the need to wrangle and preprocess large multi-omic datasets and the availability of multiple comparable prediction approaches. SL-Cloud enables customizable computational inference of SLIs and testing of prediction approaches across multiple datasets. We anticipate that cancer researchers will find utility in this tool for discovery of SLIs to support further investigation into potential drug targets for anticancer therapies.

Published

2022

9. BDNF rs10501087, rs1491850 and rs11030094 polymorphisms associated with delayed progression in early-stage Parkinson's disease

Author

D. Luke Fischer, Peggy Auinger, John L. Goudreau, Katrina L. Paumier, Allyson Cole-Strauss, Christopher J. Kemp, Jack W. Lipton, and Caryl E. Sortwell

Subjects

Parkinson's disease, brain-derived neurotrophic factor, rs908867, rs11030094, rs10501087, rs1157659, Neurology. Diseases of the nervous system, RC346-429

Abstract

Parkinson's disease (PD) is heterogenous in its presentation, progression and response to therapies. Genetic polymorphisms may account for some of this variability. Several single nucleotide polymorphisms (SNPs) in the brain-derived neurotrophic factor gene BDNF have been associated with differing clinical outcomes from different dopaminergic replacement strategies, and one of these, the rs6265 SNP, has been associated with a milder clinical phenotype in the unmedicated, early-stage of PD. We examined if other BDNF SNPs with potential pharmacogenetic effects also are associated with different rates of disease progression. The Deprenyl And Tocopherol Antioxidative Therapy Of Parkinsonism (DATATOP) study was analyzed retrospectively. DNA samples (n = 217) were genotyped for the BDNF rs908867, rs11030094, rs10501087, rs1157659, and rs1491850 SNPs, and the primary endpoint was time to initiate symptomatic pharmacotherapy. Genotypes were compared using the Cox proportional hazard ratio (HR) with baseline age, sex, site, time since PD diagnosis and rs6265 genotype as covariates. The primary endpoint was associated with a delay with three SNPs: rs10501087 [HR (95% Confidence Interval) = 28.3 (3.6–223.1, p = 0.002) and 7.6 (1.9–29.8, p = 0.004) for T/T and T/C subjects, respectively, vs. C/C subjects], rs1491850 [HR = 3.3 (1.3–8.4, p = 0.04) and 2.8 (1.3–6.4, p = 0.03) for T/T and T/C subjects, respectively, vs. C/C subjects] and rs11030094 [HR = 2.5 (1.1–5.6, p = 0.03) and 2.0 (1.3–6.4, p = 0.03) for A/A and A/G subjects, respectively, vs. G/G subjects]. From the primary endpoint, specific rs10501087, rs1491850, and rs11030094 SNP genotypes are associated with a slower rate of PD progression in the unmedicated state. A prospective clinical trial examining many BDNF SNPs is warranted.

Published

2022

10. SL-Cloud: A Cloud-based resource to support synthetic lethal interaction discovery [version 1; peer review: 1 approved, 1 approved with reservations]

Author

Bahar Tercan, Guangrong Qin, Taek-Kyun Kim, Boris Aguilar, John Phan, William Longabaugh, David Pot, Christopher J. Kemp, Nyasha Chambwe, and Ilya Shmulevich

Subjects

Software Tool Article, Articles, synthetic lethality, cloud computing, cancer genomics, cancer dependency, systems biology, functional genomics

Abstract

Synthetic lethal interactions (SLIs), genetic interactions in which the simultaneous inactivation of two genes leads to a lethal phenotype, are promising targets for therapeutic intervention in cancer, as exemplified by the recent success of PARP inhibitors in treating BRCA1/2-deficient tumors. We present SL-Cloud, a new component of the Institute for Systems Biology Cancer Gateway in the Cloud (ISB-CGC), that provides an integrated framework of cloud-hosted data resources and curated workflows to enable facile prediction of SLIs. This resource addresses two main challenges related to SLI inference: the need to wrangle and preprocess large multi-omic datasets and the availability of multiple comparable prediction approaches. SL-Cloud enables customizable computational inference of SLIs and testing of prediction approaches across multiple datasets. We anticipate that cancer researchers will find utility in this tool for discovery of SLIs to support further investigation into potential drug targets for anticancer therapies.

Published

2022

11. BET, SRC, and BCL2 family inhibitors are synergistic drug combinations with PARP inhibitors in ovarian cancer

Author

Goldie Y.L. Lui, Reid Shaw, Franz X. Schaub, Isabella N. Stork, Kay E. Gurley, Caroline Bridgwater, Robert L. Diaz, Rachele Rosati, Hallie A. Swan, Tan A. Ince, Thomas C. Harding, Vijayakrishna K. Gadi, Barbara A. Goff, Christopher J. Kemp, Elizabeth M. Swisher, and Carla Grandori

Subjects

Ovarian cancer, Drug combinations, Poly(ADP-ribose) Polymerase Inhibitors, Rucaparib, Dasatinib, Navitoclax, Medicine, Medicine (General), R5-920

Abstract

Background: Homologous recombination deficiencies (HRD) are present in approximately half of epithelial ovarian cancers, for which PARP inhibitors (PARPi) are becoming a preferred treatment option. However, a considerable proportion of these carcinomas acquire resistance or harbour de novo resistance, posing a significant challenge to treatment. Methods: To identify new combinatorial therapeutics to overcome resistance to PARPi, we employed high-throughput conditional RNAi and drug screening of patient-derived ovarian cancer cells. To prioritise clinically relevant drug combinations, we integrated empirical validation with analysis of The Cancer Genome Atlas (TCGA) and Genomics of Drug Sensitivity in Cancer (GDSC) datasets to nominate candidate targets and drugs, reaching three main findings. Findings: Firstly, we found that the PARPi rucaparib enhanced the effect of BET inhibitors (CPI-203 & CPI-0610) irrespective of clinical subtype or HRD status. Additional drug combination screens identified that dasatinib, a non-receptor tyrosine kinase inhibitor, augmented the effects of rucaparib and BET inhibitors, proposing a potential broadly applicable triple-drug combination for high-grade serous and clear cell ovarian carcinomas. Secondly, rucaparib synergised with the BCL2 family inhibitor navitoclax, with preferential activity in ovarian carcinomas that harbour alterations in BRCA1/2, BARD1, or MSH2/6. Thirdly, we identified potentially antagonistic drug combinations between the PARPi rucaparib and vinca alkaloids, anthracyclines, and antimetabolites, cautioning their use in the clinic. Interpretation: These findings propose therapeutic strategies to address PARP inhibitor resistance using agents that are already approved or are in clinical development, with the potential for rapid translation to benefit a broad population of ovarian cancer patients.

Published

2020

12. Developmental exposure to the organochlorine pesticide dieldrin causes male-specific exacerbation of α-synuclein-preformed fibril-induced toxicity and motor deficits

Author

Aysegul O. Gezer, Joseph Kochmanski, Sarah E. VanOeveren, Allyson Cole-Strauss, Christopher J. Kemp, Joseph R. Patterson, Kathryn M. Miller, Nathan C. Kuhn, Danielle E. Herman, Alyssa McIntire, Jack W. Lipton, Kelvin C. Luk, Sheila M. Fleming, Caryl E. Sortwell, and Alison I. Bernstein

Subjects

Parkinson's, Pesticide, Synuclein, Neurotoxicity, Neuroinflammation, Sex differences, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Human and animal studies have shown that exposure to the organochlorine pesticide dieldrin is associated with increased risk of Parkinson's disease (PD). Previous work showed that developmental dieldrin exposure increased neuronal susceptibility to MPTP toxicity in male C57BL/6 mice, possibly via changes in dopamine (DA) packaging and turnover. However, the relevance of the MPTP model to PD pathophysiology has been questioned. We therefore studied dieldrin-induced neurotoxicity in the α-synuclein (α-syn)-preformed fibril (PFF) model, which better reflects the α-syn pathology and toxicity observed in PD pathogenesis. Specifically, we used a “two-hit” model to determine whether developmental dieldrin exposure increases susceptibility to α-syn PFF-induced synucleinopathy. Dams were fed either dieldrin (0.3 mg/kg, every 3–4 days) or vehicle corn oil starting 1 month prior to breeding and continuing through weaning of pups at postnatal day 22. At 12 weeks of age, male and female offspring received intrastriatal α-syn PFF or control saline injections. Consistent with the male-specific increased susceptibility to MPTP, our results demonstrate that developmental dieldrin exposure exacerbates PFF-induced toxicity in male mice only. Specifically, in male offspring, dieldrin exacerbated PFF-induced motor deficits on the challenging beam and increased DA turnover in the striatum 6 months after PFF injection. However, male offspring showed neither exacerbation of phosphorylated α-syn aggregation (pSyn) in the substantia nigra (SN) at 1 or 2 months post-PFF injection, nor exacerbation of PFF-induced TH and NeuN loss in the SN 6 months post-PFF injection. Collectively, these data indicate that developmental dieldrin exposure produces a male-specific exacerbation of synucleinopathy-induced behavioral and biochemical deficits. This sex-specific result is consistent with both previous work in the MPTP model, our previously reported sex-specific effects of this exposure paradigm on the male and female epigenome, and the higher prevalence and more severe course of PD in males. The novel two-hit environmental toxicant/PFF exposure paradigm established in this project can be used to explore the mechanisms by which other PD-related exposures alter neuronal vulnerability to synucleinopathy in sporadic PD.

Published

2020

13. Lewy body-like alpha-synuclein inclusions trigger reactive microgliosis prior to nigral degeneration

Author

Megan F. Duffy, Timothy J. Collier, Joseph R. Patterson, Christopher J. Kemp, Kelvin C. Luk, Malú G. Tansey, Katrina L. Paumier, Nicholas M. Kanaan, D. Luke Fischer, Nicole K. Polinski, Olivia L. Barth, Jacob W. Howe, Nishant N. Vaikath, Nour K. Majbour, Omar M. A. El-Agnaf, and Caryl E. Sortwell

Subjects

Neuroinflammation, Parkinson’s disease, Animal models, Synucleinopathy, Microglia, Major-histocompatibility complex-II, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Converging evidence suggests a role for microglia-mediated neuroinflammation in Parkinson’s disease (PD). Animal models of PD can serve as a platform to investigate the role of neuroinflammation in degeneration in PD. However, due to features of the previously available PD models, interpretations of the role of neuroinflammation as a contributor to or a consequence of neurodegeneration have remained elusive. In the present study, we investigated the temporal relationship of neuroinflammation in a model of synucleinopathy following intrastriatal injection of pre-formed alpha-synuclein fibrils (α-syn PFFS). Methods Male Fischer 344 rats (N = 114) received unilateral intrastriatal injections of α-syn PFFs, PBS, or rat serum albumin with cohorts euthanized at monthly intervals up to 6 months. Quantification of dopamine neurons, total neurons, phosphorylated α-syn (pS129) aggregates, major histocompatibility complex-II (MHC-II) antigen-presenting microglia, and ionized calcium-binding adaptor molecule-1 (Iba-1) immunoreactive microglial soma size was performed in the substantia nigra. In addition, the cortex and striatum were also examined for the presence of pS129 aggregates and MHC-II antigen-presenting microglia to compare the temporal patterns of pSyn accumulation and reactive microgliosis. Results Intrastriatal injection of α-syn PFFs to rats resulted in widespread accumulation of phosphorylated α-syn inclusions in several areas that innervate the striatum followed by significant loss (~ 35%) of substantia nigra pars compacta dopamine neurons within 5–6 months. The peak magnitudes of α-syn inclusion formation, MHC-II expression, and reactive microglial morphology were all observed in the SN 2 months following injection and 3 months prior to nigral dopamine neuron loss. Surprisingly, MHC-II immunoreactivity in α-syn PFF injected rats was relatively limited during the later interval of degeneration. Moreover, we observed a significant correlation between substantia nigra pSyn inclusion load and number of microglia expressing MHC-II. In addition, we observed a similar relationship between α-syn inclusion load and number of microglia expressing MHC-II in cortical regions, but not in the striatum. Conclusions Our results demonstrate that increases in microglia displaying a reactive morphology and MHC-II expression occur in the substantia nigra in close association with peak numbers of pSyn inclusions, months prior to nigral dopamine neuron degeneration, and suggest that reactive microglia may contribute to vulnerability of SNc neurons to degeneration. The rat α-syn PFF model provides an opportunity to examine the innate immune response to accumulation of pathological α-syn in the context of normal levels of endogenous α-syn and provides insight into the earliest neuroinflammatory events in PD.

Published

2018

14. Time course and magnitude of alpha-synuclein inclusion formation and nigrostriatal degeneration in the rat model of synucleinopathy triggered by intrastriatal α-synuclein preformed fibrils

Author

Joseph R. Patterson, Megan F. Duffy, Christopher J. Kemp, Jacob W. Howe, Timothy J. Collier, Anna C. Stoll, Kathryn M. Miller, Pooja Patel, Nathan Levine, Darren J. Moore, Kelvin C. Luk, Sheila M. Fleming, Nicholas M. Kanaan, Katrina L. Paumier, Omar M.A. El-Agnaf, and Caryl E. Sortwell

Subjects

Alpha-Synuclein, Preformed fibrils, Synucleinopathy, Parkinson's disease, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Animal models that accurately recapitulate the accumulation of alpha-synuclein (α-syn) inclusions, progressive neurodegeneration of the nigrostriatal system and motor deficits can be useful tools for Parkinson's disease (PD) research. The preformed fibril (PFF) synucleinopathy model in rodents generally displays these PD-relevant features, however, the magnitude and predictability of these events is far from established. We therefore sought to optimize the magnitude of α-syn accumulation and nigrostriatal degeneration, and to understand the time course of both. Rats were injected unilaterally with different quantities of α-syn PFFs (8 or 16 μg of total protein) into striatal sites selected to concentrate α-syn inclusion formation in the substantia nigra pars compacta (SNpc). Rats displayed an α-syn PFF quantity-dependent increase in the magnitude of ipsilateral SNpc inclusion formation at 2 months and bilateral loss of nigral dopamine neurons at 6 months. Unilateral 16 μg PFF injection also resulted in modest sensorimotor deficits in forelimb adjusting steps associated with degeneration at 6 months. Bilateral injection of 16 μg α-syn PFFs resulted in symmetric bilateral degeneration equivalent to the ipsilateral nigral degeneration observed following unilateral 16 μg PFF injection (~50% loss). Bilateral PFF injections additionally resulted in alterations in several gait analysis parameters. These α-syn PFF parameters can be applied to generate a reproducible synucleinopathy model in rats with which to study pathogenic mechanisms and vet potential disease-modifying therapies.

Published

2019

15. Dopaminergic Positron Emission Tomography Imaging in the Alpha‐Synuclein Preformed Fibril Model Reveals Similarities to Early Parkinson's Disease

Author

Vesna Sossi, Joseph R. Patterson, Siobhan McCormick, Christopher J. Kemp, Kathryn M. Miller, Anna C. Stoll, Nathan Kuhn, Michael Kubik, Joseph Kochmanski, Kelvin C. Luk, and Caryl E. Sortwell

Subjects

Neurology, Dopamine, Dopaminergic Neurons, Positron-Emission Tomography, alpha-Synuclein, Animals, Humans, Parkinson Disease, Neurology (clinical), Corpus Striatum, Rats

Abstract

Positron emission tomography (PET) imaging in early Parkinson's disease (PD) subjects reveals that increased dopamine (DA) turnover and reduced dopamine transporter (DAT) density precede decreases in DA synthesis and storage. The rat α-synuclein preformed fibril (α-syn PFF) model provides a platform to investigate DA dynamics during multiple stages of α-syn inclusion-triggered nigrostriatal degeneration.We investigated multiple aspects of in vivo dopaminergic deficits longitudinally and similarities to human PD using translational PET imaging readouts.Longitudinal imaging was performed every 2 months in PFF and control rats for 7 months. [Early DA turnover increases and DAT binding decreases were observed in the ipsilateral striatum of PFF rats, progressing longitudinally. EDVR decreased 26%, 38%, and 47%, and BPThe relative preservation of DA synthesis and storage compared to robust progressive deficits in DAT density and increases in DA turnover in the rat α-syn PFF model display remarkable face validity to dopaminergic alterations in human PD. © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

Published

2022

16. Microglial depletion does not impact alpha-synuclein aggregation or nigrostriatal degeneration in the rat preformed fibril model

Author

Anna C. Stoll, Christopher J. Kemp, Joseph R. Patterson, Michael Kubik, Nathan Kuhn, Matthew Benskey, Megan F. Duffy, Kelvin Luk, and Caryl E. Sortwell

Abstract

Background: Parkinson’s disease (PD) is a neurodegenerative disorder that is characterized by the presence of proteinaceous alpha-synuclein (α-syn) inclusions (Lewy bodies), markers of neuroinflammation and the progressive loss of nigrostriatal dopamine (DA) neurons. These pathological features can be recapitulated in vivo using the α-syn preformed fibril (PFF) model of synucleinopathy. We have previously described the time course of microglial major-histocompatibility complex-II (MHC-II) expression and alterations in microglia morphology in the PFF model in rats. Specifically, the peaks of α-syn inclusion formation, MHC-II expression, and reactive morphology in the substantia nigra pars compacta (SNpc) all occur two months post PFF injection, months before neurodegeneration occurs. These results suggest that activated microglia may contribute to neurodegeneration and could represent a potential target for novel therapeutics. The goal of this study was to determine whether microglial depletion could impact the magnitude of α-syn aggregation, nigrostriatal degeneration, or related microglial activation during the α-syn PFF model. Methods: Male Fischer 344 rats were injected intrastriatally with either α-syn PFFs or saline. Rats were continuously administered Pexidartinib (PLX3397B, 600mg/kg), a colony stimulating factor-1 receptor (CSF1R) inhibitor, to deplete microglia for a period of either two or six months. Results: PLX3397B administration resulted in significant depletion (45-53%) of ionized calcium-binding adapter molecule 1 immunoreactive (Iba-1ir) microglia within the SNpc. Microglial depletion did not impact accumulation of phosphorylated α-syn (pSyn) within SNpc neurons and did not alter pSyn associated microglial reactivity or expression of MHC-II. Further, microglial depletion did not impact SNpc neuron degeneration. Paradoxically, long term microglial depletion resulted in increased soma size of remaining microglia in both control and PFF rats, as well as expression of MHC-II in extranigral regions. Conclusions: Collectively, our results suggest that microglial depletion is not a viable disease-modifying strategy for PD and that partial microglial depletion can induce a heightened proinflammatory state in remaining microglia.

Published

2023

17. Data from Systematic Screen Identifies miRNAs That Target RAD51 and RAD51D to Enhance Chemosensitivity

Author

Toshiyasu Taniguchi, Christopher J. Kemp, Muneesh Tewari, Patrick S. Mitchell, Emily Villegas, Philamer Calses, Kiranjit K. Dhillon, Yemin Wang, and Jen-Wei Huang

Abstract

Homologous recombination mediates error-free repair of DNA double-strand breaks (DSB). RAD51 is an essential protein for catalyzing homologous recombination and its recruitment to DSBs is mediated by many factors including RAD51, its paralogs, and breast/ovarian cancer susceptibility gene products BRCA1/2. Deregulation of these factors leads to impaired DNA repair, genomic instability, and cellular sensitivity to chemotherapeutics such as cisplatin and PARP inhibitors. microRNAs (miRNA) are short, noncoding RNAs that posttranscriptionally regulate gene expression; however, the contribution of miRNAs in the regulation of homologous recombination is not well understood. To address this, a library of human miRNA mimics was systematically screened to pinpoint several miRNAs that significantly reduce RAD51 foci formation in response to ionizing radiation in human osteosarcoma cells. Subsequent study focused on two of the strongest candidates, miR-103 and miR-107, as they are frequently deregulated in cancer. Consistent with the inhibition of RAD51 foci formation, miR-103 and miR-107 reduced homology-directed repair and sensitized cells to various DNA-damaging agents, including cisplatin and a PARP inhibitor. Mechanistic analyses revealed that both miR-103 and miR-107 directly target and regulate RAD51 and RAD51D, which is critical for miR-103/107–mediated chemosensitization. Furthermore, endogenous regulation of RAD51D by miR-103/107 was observed in several tumor subtypes. Taken together, these data show that miR-103 and miR-107 overexpression promotes genomic instability and may be used therapeutically to chemosensitize tumors.Implications: These findings demonstrate a role for miR-103 and -107 in regulating DNA damage repair, thereby identifying new players in the progression of cancer and response to chemotherapy. Mol Cancer Res; 11(12); 1564–73. ©2013 AACR.

Published

2023

18. Data from Targeting BET Proteins BRD2 and BRD3 in Combination with PI3K-AKT Inhibition as a Therapeutic Strategy for Ovarian Clear Cell Carcinoma

Author

Christopher J. Kemp, Carla Grandori, Elizabeth M. Swisher, Tan A. Ince, Robert L. Diaz, Rachele Rosati, Grace Durenberger, Kay E. Gurley, Russell Moser, Reid Shaw, Goldie Y.L. Lui, and Shogo Shigeta

Abstract

Ovarian clear cell carcinoma (OCCC) is a rare, chemo-resistant subtype of ovarian cancer. To identify novel therapeutic targets and combination therapies for OCCC, we subjected a set of patient-derived ovarian cancer cell lines to arrayed high-throughput siRNA and drug screening. The results indicated OCCC cells are vulnerable to knockdown of epigenetic gene targets such as bromodomain and extra-terminal domain (BET) proteins BRD2 and BRD3. Subsequent RNA interference assays, as well as BET inhibitor treatments, validated these BET proteins as potential therapeutic targets. Because development of resistance to single targeted agents is common, we next performed sensitizer drug screens to identify potential combination therapies with the BET inhibitor CPI0610. Several PI3K or AKT inhibitors were among the top drug combinations identified and subsequent work showed CPI0610 synergized with alpelisib or MK2206 by inducing p53-independent apoptosis. We further verified synergy between CPI0610 and PI3K–AKT pathway inhibitors alpelisib, MK2206, or ipatasertib in tumor organoids obtained directly from patients with OCCC. These findings indicate further preclinical evaluation of BET inhibitors, alone or in combination with PI3K-AKT inhibitors for OCCC, is warranted.

Published

2023

19. Supplementary Figure 2 from MYC-Driven Tumorigenesis Is Inhibited by WRN Syndrome Gene Deficiency

Author

Carla Grandori, Christopher J. Kemp, Martin Morgan, Jerry Davison, Heather L. Howie, Kay E. Gurley, Kristin Robinson, Masafumi Toyoshima, and Russell Moser

Abstract

PDF file - 164K

Published

2023

20. Supplementary Table 3 from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Table 3. Patient A single and duparlisib combination high throughout drug screen.

Published

2023

21. Supplementary Figure 5 from MYC-Driven Tumorigenesis Is Inhibited by WRN Syndrome Gene Deficiency

Author

Carla Grandori, Christopher J. Kemp, Martin Morgan, Jerry Davison, Heather L. Howie, Kay E. Gurley, Kristin Robinson, Masafumi Toyoshima, and Russell Moser

Abstract

PDF file - 101K

Published

2023

22. Supplementary Figure 3 from MYC-Driven Tumorigenesis Is Inhibited by WRN Syndrome Gene Deficiency

Author

Carla Grandori, Christopher J. Kemp, Martin Morgan, Jerry Davison, Heather L. Howie, Kay E. Gurley, Kristin Robinson, Masafumi Toyoshima, and Russell Moser

Abstract

PDF file - 502K

Published

2023

23. Supplementary Table 5 from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Table 5. Patient B Single and buparlisib Combination High Throughput Drug Screen.

Published

2023

24. Supplementary Data from Targeting BET Proteins BRD2 and BRD3 in Combination with PI3K-AKT Inhibition as a Therapeutic Strategy for Ovarian Clear Cell Carcinoma

Author

Christopher J. Kemp, Carla Grandori, Elizabeth M. Swisher, Tan A. Ince, Robert L. Diaz, Rachele Rosati, Grace Durenberger, Kay E. Gurley, Russell Moser, Reid Shaw, Goldie Y.L. Lui, and Shogo Shigeta

Abstract

Supplementary Figure 2. Gene Ontology (GO) enrichment analysis indicates OCI-C5x cells are more vulnerable to epigenetic interventions than OCI-P5x cells

Published

2023

25. Supplementary Figure 4 from MYC-Driven Tumorigenesis Is Inhibited by WRN Syndrome Gene Deficiency

Author

Carla Grandori, Christopher J. Kemp, Martin Morgan, Jerry Davison, Heather L. Howie, Kay E. Gurley, Kristin Robinson, Masafumi Toyoshima, and Russell Moser

Abstract

PDF file - 114K

Published

2023

26. Supplementary Table 1B from MYC-Driven Tumorigenesis Is Inhibited by WRN Syndrome Gene Deficiency

Author

Carla Grandori, Christopher J. Kemp, Martin Morgan, Jerry Davison, Heather L. Howie, Kay E. Gurley, Kristin Robinson, Masafumi Toyoshima, and Russell Moser

Abstract

PDF file - 5.8MB

Published

2023

27. Data from MYC-Driven Tumorigenesis Is Inhibited by WRN Syndrome Gene Deficiency

Author

Carla Grandori, Christopher J. Kemp, Martin Morgan, Jerry Davison, Heather L. Howie, Kay E. Gurley, Kristin Robinson, Masafumi Toyoshima, and Russell Moser

Abstract

MYC-induced DNA damage is exacerbated in WRN-deficient cells, leading to replication stress and accelerated cellular senescence. To determine whether WRN deficiency impairs MYC-driven tumor development, we used both xenograft and autochthonous tumor models. Conditional silencing of WRN expression in c-MYC overexpressing non–small cell lung cancer xenografts impaired both tumor establishment and tumor growth. This inhibitory effect of WRN knockdown was accompanied by increased DNA damage, decreased proliferation, and tumor necrosis. In the Eμ-Myc mouse model of B-cell lymphoma, a germline mutation in the helicase domain of Wrn (WrnΔhel/Δhel) resulted in a significant delay in emergence of lethal lymphomas, extending tumor-free survival by more than 30%. Analysis of preneoplastic B cells from Eμ-Myc Wrn mutant mice revealed increased DNA damage, elevation of senescence markers, and decreased proliferation in comparison with cells from age-matched Eμ-Myc mice. Immunohistochemical and global gene expression analysis of overt Eμ-Myc WrnΔhel/Δhel lymphomas showed a marked increase in expression of the CDK inhibitor, p16Ink4a, as well as elevation of TAp63, a known mediator of senescence. Collectively, these studies show that in the context of Myc-associated tumorigenesis, loss of Wrn amplifies the DNA damage response, both in preneoplastic and neoplastic tissue, engaging activation of tumor suppressor pathways. This leads to inhibition of tumor growth and prolonged tumor-free survival. Targeting WRN or its enzymatic function could prove to be an effective strategy in the treatment of MYC-associated cancers. Mol Cancer Res; 10(4); 535–45. ©2012 AACR.

Published

2023

28. Supplementary Table 4 from Systematic Screen Identifies miRNAs That Target RAD51 and RAD51D to Enhance Chemosensitivity

Author

Toshiyasu Taniguchi, Christopher J. Kemp, Muneesh Tewari, Patrick S. Mitchell, Emily Villegas, Philamer Calses, Kiranjit K. Dhillon, Yemin Wang, and Jen-Wei Huang

Abstract

XLSX file - 86K, Summary of TCGA sample patient information used in correlation analyses.

Published

2023

29. Supplementary Figures 1 - 6 from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Figures 1 - 6

Published

2023

30. Supplementary Table 2 from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Table 2. Drug Library Concentrations.

Published

2023

31. Supplementary Table 1 from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Table 1. Genomic analysis of 15 patients.

Published

2023

32. Supplementary Table Legends from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Table Legends

Published

2023

33. Supplementary Table 7 from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Table 7. Patient D SINGLE and afatinib COMBINATION High Throughput Drug Screen.

Published

2023

34. Supplementary Figure Legends 1-5, Table Legend 1 from MYC-Driven Tumorigenesis Is Inhibited by WRN Syndrome Gene Deficiency

Author

Carla Grandori, Christopher J. Kemp, Martin Morgan, Jerry Davison, Heather L. Howie, Kay E. Gurley, Kristin Robinson, Masafumi Toyoshima, and Russell Moser

Abstract

PDF file - 100K

Published

2023

35. Supplementary Methods, Figures 1 - 10, Tables 1 - 3 from Systematic Screen Identifies miRNAs That Target RAD51 and RAD51D to Enhance Chemosensitivity

Author

Toshiyasu Taniguchi, Christopher J. Kemp, Muneesh Tewari, Patrick S. Mitchell, Emily Villegas, Philamer Calses, Kiranjit K. Dhillon, Yemin Wang, and Jen-Wei Huang

Abstract

PDF file - 2066K, S1. MiR-103 and miR-107 inhibit DNA damage-induced RAD51 foci formation in cancer cells. S2. MiR-103 and miR-107 promote chemosensitivity in U2OS cells. S3. MiR-103 and miR-107 promote chemosensitivity to cisplatin and a PARP inhibitor in HeLa and PEO1 C4-2 cells. S4. MiR-107 promotes chemosensitivity in H1299, HeLa and PEO1 C4-2 cells. S5. MiR-103 and miR-107 regulate RAD51 and RAD51D. S6. RAD51 is critical for cellular resistance to cisplatin and a PARP inhibitor. S7. RAD51 downregulation is critical for miR-103/107-mediated regulation of HR. S8. RAD51D downregulation is relevant to miR-103/107-mediated chemosensitivity. S9. Inhibition of miR-103 and miR-107 mildly de-represses RAD51D expression. S10. MiR-103 and miR-107 are inversely correlated with RAD51D mRNA expression in several tumor subtypes. Table S1. Summary of library screening to identify microRNAs that regulate IR-induced RAD51 foci formation. Table S2. Correlation between miR-103 or miR-107 and target gene expression in the NCI-60 panel of cancer cell lines. Table S3. Correlation between miR-103 or miR-107 and target gene expression in several tumor subtypes from TCGA.

Published

2023

36. Supplementary Table 4 from Personalized In Vitro and In Vivo Cancer Models to Guide Precision Medicine

Author

Mark A. Rubin, Lewis C. Cantley, Carla Grandori, Christopher J. Kemp, Francesca Demichelis, Himisha Beltran, Olivier Elemento, Brady Bernard, Vijayakrishna K. Gadi, Brooke E. Emerling, Bishoy M. Faltas, Brian Robinson, Juan Miguel Mosquera, Rema Rao, David Pisapia, Joanna Triscott, Cynthia Cheung, Yelena Churakova, Terra J. McNary, Rachele Rosati, Loredana Puca, Michael Augello, Verena Sailer, Andrea Sboner, Tarcisio Fedrizzi, Reid Shaw, Davide Prandi, Benjamin D. Hopkins, and Chantal Pauli

Abstract

Supplementary Table 4. Patient A Single and vorinostat COMBINATION High Throughput Drug Screen.

Published

2023

37. Supplementary Tables S9-17 from Functional Kinomics Identifies Candidate Therapeutic Targets in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Wendell G. Yarbrough, Asel Biktasova, In Sock Jang, Kay E. Gurley, Christopher M. Schaupp, Luisa Angelica Lerma, James Annis, Michael Kao, Chang Xu, and Russell Moser

Abstract

Tables S9-17: Table S9. HT RNAi primary validation screen with siRNA pool deconvolution Table S10. Differential analysis of primary validation screen (CTG) N=12 Table S11. Differential analysis of primary validation screen (CTG) N=3 Pooled Table S12. Statistical analysis summary of differential viability (CTG) Table S13. Statistical analysis (absolute viability) of primary validation screen (CTG) Table S14. HT RNAi primary validation screen summary of hits (CTG) Table S15. HT caspase 3/7-dependent apoptosis AUC analysis (Apotox) N=12 Table S16. HT caspase 3/7-dependent apoptosis AUC analysis (Apotox) N=3 pooled Table S17. Statistical analysis summary caspase 3/7 dependent apoptosis (Apotox)

Published

2023

38. Supplementary Table Legends from Functional Kinomics Identifies Candidate Therapeutic Targets in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Wendell G. Yarbrough, Asel Biktasova, In Sock Jang, Kay E. Gurley, Christopher M. Schaupp, Luisa Angelica Lerma, James Annis, Michael Kao, Chang Xu, and Russell Moser

Abstract

Supplementary Table Legends

Published

2023

39. Supplementary Tables S1-8 from Functional Kinomics Identifies Candidate Therapeutic Targets in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Wendell G. Yarbrough, Asel Biktasova, In Sock Jang, Kay E. Gurley, Christopher M. Schaupp, Luisa Angelica Lerma, James Annis, Michael Kao, Chang Xu, and Russell Moser

Abstract

Tables S1-8:Table S1. Characteristics of the HNSCC cell lines Table S2. Characteristics of the MSCC cell lines with germline mutations in p53 pathway genes Table S3. Human kinome (713 kinases) Sigma Table S4. Murine kinome (572 kinases) Ambion Table S5. Interspecies kinome (508 kinases) Table S6. Primary validation siRNAs Table S7. Secondary validation siRNAs Table S8. Interspecies kinase targets selected for validation

Published

2023

40. Supplementary Figure S3 from Functional Kinomics Identifies Candidate Therapeutic Targets in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Wendell G. Yarbrough, Asel Biktasova, In Sock Jang, Kay E. Gurley, Christopher M. Schaupp, Luisa Angelica Lerma, James Annis, Michael Kao, Chang Xu, and Russell Moser

Abstract

Figure S3. Correlation plots of autologous HNSCC cell line pairs utilizing kinomic profile

Published

2023

41. Supplementary Table 8 from Functional Precision Medicine Identifies Novel Druggable Targets and Therapeutic Options in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Vijayakrishna K. Gadi, Justin Guinney, In S. Jang, Hallie A. Swan, Robert L. Diaz, Franz X. Schaub, Carlos L. Green, Michael C. Kao, Kay E. Gurley, Heuijoon Park, Russell D. Moser, Reid Shaw, Ryan M. Mitchell, Ryan S. Basom, Olga Nikolova, and Chang Xu

Abstract

Supplementary Table 8

Published

2023

42. Data from Pharmacologic Targeting of TFIIH Suppresses KRAS-Mutant Pancreatic Ductal Adenocarcinoma and Synergizes with TRAIL

Author

Christopher J. Kemp, Daniel D. Von Hoff, Carla Grandori, Andrew Biankin, Haiyong Han, Calvin Kuo, Rosalie C. Sears, Craig Dorrell, Kim Moran-Jones, Eduardo Mendez, Kay Gurley, Cliff Whatcott, Olga Nikolova, James Annis, and Russell Moser

Abstract

Pancreatic ductal adenocarcinoma (PDAC) typically presents as metastatic disease at diagnosis and remains refractory to treatment. Next-generation sequencing efforts have described the genomic landscape, classified molecular subtypes, and confirmed frequent alterations in major driver genes, with coexistent alterations in KRAS and TP53 correlating with the highest metastatic burden and poorest outcomes. However, translating this information to guide therapy remains a challenge. By integrating genomic analysis with an arrayed RNAi druggable genome screen and drug profiling of a KRAS/TP53 mutant PDAC cell line derived from a patient-derived xenograft (PDCL), we identified numerous targetable vulnerabilities that reveal both known and novel functional aspects of pancreatic cancer biology. A dependence on the general transcription and DNA repair factor TFIIH complex, particularly the XPB subunit and the CAK complex (CDK7/CyclinH/MAT1), was identified and further validated utilizing a panel of genomically subtyped KRAS mutant PDCLs. TFIIH function was inhibited with a covalent inhibitor of CDK7/12/13 (THZ1), a CDK7/CDK9 kinase inhibitor (SNS-032), and a covalent inhibitor of XPB (triptolide), which led to disruption of the protein stability of the RNA polymerase II subunit RPB1. Loss of RPB1 following TFIIH inhibition led to downregulation of key transcriptional effectors of KRAS-mutant signaling and negative regulators of apoptosis, including MCL1, XIAP, and CFLAR, initiating caspase-8 dependent apoptosis. All three drugs exhibited synergy in combination with a multivalent TRAIL, effectively reinforcing mitochondrial-mediated apoptosis. These findings present a novel combination therapy, with direct translational implications for current clinical trials on metastatic pancreatic cancer patients.Significance:This study utilizes functional genetic and pharmacological profiling of KRAS-mutant pancreatic adenocarcinoma to identify therapeutic strategies and finds that TFIIH inhibition synergizes with TRAIL to induce apoptosis in KRAS-driven pancreatic cancer.

Published

2023

43. Supplementary Table 6-7 from Functional Precision Medicine Identifies Novel Druggable Targets and Therapeutic Options in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Vijayakrishna K. Gadi, Justin Guinney, In S. Jang, Hallie A. Swan, Robert L. Diaz, Franz X. Schaub, Carlos L. Green, Michael C. Kao, Kay E. Gurley, Heuijoon Park, Russell D. Moser, Reid Shaw, Ryan M. Mitchell, Ryan S. Basom, Olga Nikolova, and Chang Xu

Abstract

Supplementary Table 6, 7

Published

2023

44. Supplementary Table 10 from Functional Precision Medicine Identifies Novel Druggable Targets and Therapeutic Options in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Vijayakrishna K. Gadi, Justin Guinney, In S. Jang, Hallie A. Swan, Robert L. Diaz, Franz X. Schaub, Carlos L. Green, Michael C. Kao, Kay E. Gurley, Heuijoon Park, Russell D. Moser, Reid Shaw, Ryan M. Mitchell, Ryan S. Basom, Olga Nikolova, and Chang Xu

Abstract

Supplementary Table 10

Published

2023

45. Supplementary Tables S18-20 from Functional Kinomics Identifies Candidate Therapeutic Targets in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Wendell G. Yarbrough, Asel Biktasova, In Sock Jang, Kay E. Gurley, Christopher M. Schaupp, Luisa Angelica Lerma, James Annis, Michael Kao, Chang Xu, and Russell Moser

Abstract

Tables S18-20: Table S18. Secondary validation assay statistical analysis (absolute viability) Table S19. Differential viability and caspase 3/7 dependent apoptosis AUC of secondary validation assay Table S20. Statistical analysis summary differential viability and caspase 3/7 dependent apoptosis

Published

2023

46. Supplementary Data from Pharmacologic Targeting of TFIIH Suppresses KRAS-Mutant Pancreatic Ductal Adenocarcinoma and Synergizes with TRAIL

Author

Christopher J. Kemp, Daniel D. Von Hoff, Carla Grandori, Andrew Biankin, Haiyong Han, Calvin Kuo, Rosalie C. Sears, Craig Dorrell, Kim Moran-Jones, Eduardo Mendez, Kay Gurley, Cliff Whatcott, Olga Nikolova, James Annis, and Russell Moser

Abstract

Supplementary Data from Pharmacologic Targeting of TFIIH Suppresses KRAS-Mutant Pancreatic Ductal Adenocarcinoma and Synergizes with TRAIL

Published

2023

47. Supplementary Figure from Pharmacologic Targeting of TFIIH Suppresses KRAS-Mutant Pancreatic Ductal Adenocarcinoma and Synergizes with TRAIL

Author

Christopher J. Kemp, Daniel D. Von Hoff, Carla Grandori, Andrew Biankin, Haiyong Han, Calvin Kuo, Rosalie C. Sears, Craig Dorrell, Kim Moran-Jones, Eduardo Mendez, Kay Gurley, Cliff Whatcott, Olga Nikolova, James Annis, and Russell Moser

Abstract

Supplementary Figure from Pharmacologic Targeting of TFIIH Suppresses KRAS-Mutant Pancreatic Ductal Adenocarcinoma and Synergizes with TRAIL

Published

2023

48. Data from Functional Kinomics Identifies Candidate Therapeutic Targets in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Wendell G. Yarbrough, Asel Biktasova, In Sock Jang, Kay E. Gurley, Christopher M. Schaupp, Luisa Angelica Lerma, James Annis, Michael Kao, Chang Xu, and Russell Moser

Abstract

Purpose: To identify novel therapeutic drug targets for p53-mutant head and neck squamous cell carcinoma (HNSCC).Experimental Design: RNAi kinome viability screens were performed on HNSCC cells, including autologous pairs from primary tumor and recurrent/metastatic lesions, and in parallel on murine squamous cell carcinoma (MSCC) cells derived from tumors of inbred mice bearing germline mutations in Trp53, and p53 regulatory genes: Atm, Prkdc, and p19Arf. Cross-species analysis of cell lines stratified by p53 mutational status and metastatic phenotype was used to select 38 kinase targets. Both primary and secondary RNAi validation assays were performed on additional HNSCC cell lines to credential these kinase targets using multiple phenotypic endpoints. Kinase targets were also examined via chemical inhibition using a panel of kinase inhibitors. A preclinical study was conducted on the WEE1 kinase inhibitor, MK-1775.Results: Our functional kinomics approach identified novel survival kinases in HNSCC involved in G2–M cell-cycle checkpoint, SFK, PI3K, and FAK pathways. RNAi-mediated knockdown and chemical inhibition of the WEE1 kinase with a specific inhibitor, MK-1775, had a significant effect on both viability and apoptosis. Sensitivity to the MK-1775 kinase inhibitor is in part determined by p53 mutational status, and due to unscheduled mitotic entry. MK-1775 displays single-agent activity and potentiates the efficacy of cisplatin in a p53-mutant HNSCC xenograft model.Conclusions: WEE1 kinase is a potential therapeutic drug target for HNSCC. This study supports the application of a functional kinomics strategy to identify novel therapeutic targets for cancer. Clin Cancer Res; 20(16); 4274–88. ©2014 AACR.

Published

2023

49. Supplementary Table 4 from Functional Precision Medicine Identifies Novel Druggable Targets and Therapeutic Options in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Vijayakrishna K. Gadi, Justin Guinney, In S. Jang, Hallie A. Swan, Robert L. Diaz, Franz X. Schaub, Carlos L. Green, Michael C. Kao, Kay E. Gurley, Heuijoon Park, Russell D. Moser, Reid Shaw, Ryan M. Mitchell, Ryan S. Basom, Olga Nikolova, and Chang Xu

Abstract

Supplementary Table 4

Published

2023

50. Supplementary Table 5 from Functional Precision Medicine Identifies Novel Druggable Targets and Therapeutic Options in Head and Neck Cancer

Author

Eduardo Méndez, Christopher J. Kemp, Carla Grandori, Adam A. Margolin, Vijayakrishna K. Gadi, Justin Guinney, In S. Jang, Hallie A. Swan, Robert L. Diaz, Franz X. Schaub, Carlos L. Green, Michael C. Kao, Kay E. Gurley, Heuijoon Park, Russell D. Moser, Reid Shaw, Ryan M. Mitchell, Ryan S. Basom, Olga Nikolova, and Chang Xu

Abstract

Supplementary Table 5

Published

2023