Analysis of the FLVR motif of SHIP1 and its importance for the protein stability of SH2 containing signaling proteins

Under embargo until: 2020-08-02Binding of proteins with SH2 domains to tyrosine-phosphorylated signaling proteins is a key mechanism for transmission of biological signals within the cell. Characterization of dysregulated proteins in cell signaling pathways is important for the development of therapeutic approaches. The AKT pathway is a frequently upregulated pathway in most cancer cells and the SH2-containing inositol 5-phosphatase SHIP1 is a negative regulator of the AKT pathway. In this study we investigated different mutations of the conserved FLVR motif of the SH2 domain and putative phosphorylation sites of SHIP1 which are located in close proximity to its FLVR motif. We demonstrate that patient-derived SHIP1-FLVR motif mutations e.g. F28L, and L29F possess reduced protein expression and increased phospho-AKT-S473 levels in comparison to SHIP1 wildtype. The estimated half-life of SHIP1-F28L protein was reduced from 23.2 h to 0.89 h in TF-1 cells and from 4.7 h to 0.6 h in Jurkat cells. These data indicate that the phenylalanine residue at position 28 of SHIP1 is important for its stability. Replacement of F28 with other aromatic residues like tyrosine and tryptophan preserves protein stability while replacement with non-aromatic amino acids like leucine, isoleucine, valine or alanine severely affects the stability of SHIP1. In consequence, a SHIP1-mutant with an aromatic amino acid at position 28 i.e. F28W can rescue the inhibitory function of wild type SHIP1, whereas SHIP1-mutants with non-aromatic amino acids i.e. F28V do not inhibit cell growth anymore. A detailed structural analysis revealed that F28 forms hydrophobic surface contacts in particular with W5, I83, L97 and P100 which can be maintained by tyrosine and tryptophan residues, but not by non-aromatic residues at position 28. In line with this model of mutation-induced instability of SHIP1-F28L, treatment of cells with proteasomal inhibitor MG132 was able to rescue expression of SHIP1-F28L. In addition, mutation of putative phosphorylation sites S27 and S33 adjacent to the FLVR motif of SHIP1 have an influence on its protein stability. These results further support a functional role of SHIP1 as tumor suppressor protein and indicate a regulation of protein expression of SH2 domain containing proteins via the FLVR motif.acceptedVersio

Analysis of the FLVR motif of SHIP1 and its importance for the protein stability of SH2 containing signaling proteins

Under embargo until: 2020-08-02Binding of proteins with SH2 domains to tyrosine-phosphorylated signaling proteins is a key mechanism for transmission of biological signals within the cell. Characterization of dysregulated proteins in cell signaling pathways is important for the development of therapeutic approaches. The AKT pathway is a frequently upregulated pathway in most cancer cells and the SH2-containing inositol 5-phosphatase SHIP1 is a negative regulator of the AKT pathway. In this study we investigated different mutations of the conserved FLVR motif of the SH2 domain and putative phosphorylation sites of SHIP1 which are located in close proximity to its FLVR motif. We demonstrate that patient-derived SHIP1-FLVR motif mutations e.g. F28L, and L29F possess reduced protein expression and increased phospho-AKT-S473 levels in comparison to SHIP1 wildtype. The estimated half-life of SHIP1-F28L protein was reduced from 23.2 h to 0.89 h in TF-1 cells and from 4.7 h to 0.6 h in Jurkat cells. These data indicate that the phenylalanine residue at position 28 of SHIP1 is important for its stability. Replacement of F28 with other aromatic residues like tyrosine and tryptophan preserves protein stability while replacement with non-aromatic amino acids like leucine, isoleucine, valine or alanine severely affects the stability of SHIP1. In consequence, a SHIP1-mutant with an aromatic amino acid at position 28 i.e. F28W can rescue the inhibitory function of wild type SHIP1, whereas SHIP1-mutants with non-aromatic amino acids i.e. F28V do not inhibit cell growth anymore. A detailed structural analysis revealed that F28 forms hydrophobic surface contacts in particular with W5, I83, L97 and P100 which can be maintained by tyrosine and tryptophan residues, but not by non-aromatic residues at position 28. In line with this model of mutation-induced instability of SHIP1-F28L, treatment of cells with proteasomal inhibitor MG132 was able to rescue expression of SHIP1-F28L. In addition, mutation of putative phosphorylation sites S27 and S33 adjacent to the FLVR motif of SHIP1 have an influence on its protein stability. These results further support a functional role of SHIP1 as tumor suppressor protein and indicate a regulation of protein expression of SH2 domain containing proteins via the FLVR motif.acceptedVersio

Activation of CD44/PAK1/AKT signaling promotes resistance to FGFR1 inhibition in squamous-cell lung cancer

Lung cancer is the leading cause of cancer-related deaths worldwide. Fibroblast growth factor receptor 1 (FGFR1) gene amplification is one of the most prominent and potentially targetable genetic alterations in squamous-cell lung cancer (SQCLC). Highly selective tyrosine kinase inhibitors have been developed to target FGFR1; however, resistance mechanisms originally existing in patients or acquired during treatment have so far led to limited treatment efficiency in clinical trials. In this study we performed a wide-scale phosphoproteomic mass-spectrometry analysis to explore signaling pathways that lead to resistance toward FGFR1 inhibition in lung cancer cells that display (i) intrinsic, (ii) pharmacologically induced and (iii) mutationally induced resistance. Additionally, we correlated AKT activation to CD44 expression in 175 lung cancer patient samples. We identified a CD44/PAK1/AKT signaling axis as a commonly occurring resistance mechanism to FGFR1 inhibition in lung cancer. Co-inhibition of AKT/FGFR1, CD44/FGFR1 or PAK1/FGFR1 sensitized ‘intrinsically resistant’ and ‘induced-resistant’ lung-cancer cells synergetically to FGFR1 inhibition. Furthermore, strong CD44 expression was significantly correlated with AKT activation in SQCLC patients. Collectively, our phosphoproteomic analysis of lung-cancer cells resistant to FGFR1 inhibitor provides a large data library of resistance-associated phosphorylation patterns and leads to the proposal of a common resistance pathway comprising CD44, PAK1 and AKT activation. Examination of CD44/PAK1/AKT activation could help to predict response to FGFR1 inhibition. Moreover, combination between AKT and FGFR1 inhibitors may pave the way for an effective therapy of patients with treatment-resistant FGFR1-dependent lung cancer

Targeted PI3K/AKT-hyperactivation induces cell death in chronic lymphocytic leukemia.

Current therapeutic approaches for chronic lymphocytic leukemia (CLL) focus on the suppression of oncogenic kinase signaling. Here, we test the hypothesis that targeted hyperactivation of the phosphatidylinositol-3-phosphate/AKT (PI3K/AKT)-signaling pathway may be leveraged to trigger CLL cell death. Though counterintuitive, our data show that genetic hyperactivation of PI3K/AKT-signaling or blocking the activity of the inhibitory phosphatase SH2-containing-inositol-5'-phosphatase-1 (SHIP1) induces acute cell death in CLL cells. Our mechanistic studies reveal that increased AKT activity upon inhibition of SHIP1 leads to increased mitochondrial respiration and causes excessive accumulation of reactive oxygen species (ROS), resulting in cell death in CLL with immunogenic features. Our results demonstrate that CLL cells critically depend on mechanisms to fine-tune PI3K/AKT activity, allowing sustained proliferation and survival but avoid ROS-induced cell death and suggest transient SHIP1-inhibition as an unexpectedly promising concept for CLL therapy

How Do Bacteria Know They Are on a Surface and Regulate Their Response to an Adhering State?

Bacteria adhere to virtually all natural and synthetic surfaces [1,2]. Although there are a number of different reasons as to why bacteria adhere to a surface, the summarizing answer is brief: ‘‘Adhesion to a surface is a survival mechanism for bacteria’’. Nutrients in aqueous environments have the tendency to accumulate at surfaces [1,3], giving adhering bacteria a benefit over free floating, so-called planktonic ones. This is why mountain creeks may contain crystal clear, drinkable water, while stepping stones underneath the water may be covered with a slippery film of adhering microbes. In the oral cavity, adhesion to dental hard and soft tissues is life-saving to the organisms, because microbes that do not manage to adhere and remain planktonic in saliva are swallowed with an almost certain death in the gastrointestinal tract. Bacterial adhesion is generally recognized as the first step in biofilm formation, and for the human host, the ability of

Macrophages in Alzheimer’s disease: the blood-borne identity

Alzheimer’s disease (AD) is a progressive and incurable neurodegenerative disorder clinically characterized by cognitive decline involving loss of memory, reasoning and linguistic ability. The amyloid cascade hypothesis holds that mismetabolism and aggregation of neurotoxic amyloid-β (Aβ) peptides, which are deposited as amyloid plaques, are the central etiological events in AD. Recent evidence from AD mouse models suggests that blood-borne mononuclear phagocytes are capable of infiltrating the brain and restricting β-amyloid plaques, thereby limiting disease progression. These observations raise at least three key questions: (1) what is the cell of origin for macrophages in the AD brain, (2) do blood-borne macrophages impact the pathophysiology of AD and (3) could these enigmatic cells be therapeutically targeted to curb cerebral amyloidosis and thereby slow disease progression? This review begins with a historical perspective of peripheral mononuclear phagocytes in AD, and moves on to critically consider the controversy surrounding their identity as distinct from brain-resident microglia and their potential impact on AD pathology

HGF/SF and its receptor c-MET play a minor role in the dissemination of human B-lymphoma cells in SCID mice

The MET protooncogene, c-MET, encodes a cell surface tyrosine kinase receptor. The ligand for c-MET is hepatocyte growth factor (HGF), also known as scatter factor (SF), which is known to affect proliferation and motility of primarily epithelial cells. Recently, HGF/SF was also shown to affect haemopoiesis. Studies with epithelial and transfected NIH3T3 cells indicated that the HGF/SF–c-MET interaction promotes invasion in vitro and in vivo. We previously demonstrated that HGF/SF induces adhesion of c-MET-positive B-lymphoma cells to extracellular matrix molecules, and promoted migration and invasion in in vitro assays. Here, the effect of HGF/SF on tumorigenicity of c-MET-positive and c-MET-negative human B-lymphoma cell lines was studied in C.B-17 scid/scid (severe combined immune deficient) mice. Intravenously (i.v.) injected c-MET-positive (BJAB) as well as c-MET-negative (Daudi and Ramos cells) B-lymphoma cells formed tumours in SCID mice. The B-lymphoma cells invaded different organs, such as liver, kidney, lymph nodes, lung, gonads and the central nervous system. We assessed the effect of human HGF/SF on the dissemination of the B-lymphoma cells and found that administration of 5 μg HGF/SF to mice, injected (i.v.) with c-MET-positive lymphoma cells, significantly (P = 0.018) increased the number of metastases in lung, liver and lymph nodes. In addition, HGF/SF did not significantly influence dissemination of c-MET-negative lymphoma cells (P = 0.350 with Daudi cells and P = 0.353 with Ramos cells). Thus the effect of administration of HGF/SF on invasion of lymphoma cells is not an indirect one, e.g. via an effect on endothelial cells. Finally, we investigated the effect of HGF/SF on dissemination of c-MET-transduced Ramos cells. In response to HGF/SF, c-MET-transduced Ramos cells showed an increased migration through Matrigel in Boyden chambers compared to wild-type and control-transduced Ramos cells. The dissemination pattern of c-MET-transduced cells did not differ from control cells in in vivo experiments using SCID mice. Also no effect of HGF/SF administration could be documented, in contrast to the in vitro experiments. From our experiments can be concluded that the HGF/SF–c-MET interaction only plays a minor role in the dissemination of human B-lymphoma cells. © 1999 Cancer Research Campaig

Mutations and Deregulation of Ras/Raf/MEK/ERK and PI3K/PTEN/Akt/mTOR Cascades Which Alter Therapy Response

The Ras/Raf/MEK/ERK and PI3K/PTEN/Akt/mTOR cascades are often activated by genetic alterations in upstream signaling molecules such as receptor tyrosine kinases (RTK). Certain components of these pathways, RAS, NF1, BRAF, MEK1, DUSP5, PP2A, PIK3CA, PIK3R1, PIK3R4, PIK3R5, IRS4, AKT, NFKB1, MTOR, PTEN, TSC1, and TSC2 may also be activated/inactivated by mutations or epigenetic silencing. Upstream mutations in one signaling pathway or even in downstream components of the same pathway can alter the sensitivity of the cells to certain small molecule inhibitors. These pathways have profound effects on proliferative, apoptotic and differentiation pathways. Dysregulation of components of these cascades can contribute to: resistance to other pathway inhibitors, chemotherapeutic drug resistance, premature aging as well as other diseases. This review will first describe these pathways and discuss how genetic mutations and epigenetic alterations can result in resistance to various inhibitors

Datenschutzanforderungen in der Medizintechnik

Diese Arbeit behandelt das Thema der Datenschutzanforderungen in der Medizintechnik. Im Rahmen dieser Arbeit beziehen sich diese Anforderungen aus der Reformierung der europäischen Richtlinien für Medizinprodukte und des Datenschutzes zu den Verordnungen Medical Device Regulation (MDR) und Datenschutz-Grundverordnung (DSGVO). Nach einer Einleitung in relevante Begrifflichkeiten für Datensicherheit und Datenschutz, arbeitet eine genaue Analyse beider Verordnungstexte ihre Ziele und Strategien zur Verbesserung der Datensicherheit und des Datenschutzes heraus. Des Weiteren sollen die daraus formulierten Grundsätze sowie Sicherheits- und Leistungsanforderungen hervorgehoben werden, als auch die Maßnahmen, die von Herstellern und Betreibern von Medizinprodukten umgesetzt werden müssen. Dabei nennt die Arbeit auch Leitlinien und Normen, die Herstellern und Betreibern als Hilfestellung zur Compliance dienen können. Im Fokus eines typischen Anwendungsfeldes der Medizingeräte, dem medizinischen IT-Netzwerk eines Krankenhauses, werden auch die Probleme für Datensicherheit und Datenschutz sowie die Verantwortlichkeiten innerhalb des Zusammenwirkens von Hersteller und Betreiber erörtert. U. a. aus diesen Problemen, für das Gesundheitswesen als wichtiger Infrastrukturbereich, hat sich eine nationale Gesetzgebung zur IT-Sicherheit ergeben, die auch betrachtet wird. Neben integrierter Software, wird auch die eigenständige Software als Medizinprodukt behandelt. Dabei wird aufgezeigt, wie beide Verordnungen, als auch die nationale Politik, die bisherigen Probleme dieses Anwendungsfeldes aufzugreifen. Die Diskussion, welche Auswirkungen die Anforderungen an Datensicherheit und Datenschutz auf den Medizinproduktemarkt haben, bildet den Abschluss dieser Arbeit.This thesis deals with the topic of data protection requirements in medical technology. In the context of this work, these requirements relate to the reform of the European directives for medical devices and data protection to the Medical Device Regulation (MDR) and the General Data Protection Regulation (GDPR). After an introduction into relevant terminology for data security and data protection, a detailed analysis of both regulation texts elaborates their goals and strategies for improving data security and data protection. Furthermore, the principles formulated on the basis of them, security and performance requirements, as well as the measures that must be implemented by manufacturers and operators of medical devices, will be highlighted. The thesis also mentions guidelines and standards that can serve as an aid to compliance for manufacturers and operators. Focusing on a typical application field of medical devices, the medical IT network of a hospital, the problems for data security and data protection, as well as the responsibilities within the interaction of manufacturer and operator, are discussed. Out of these problems and further ones for the health service, as an important infrastructure sector, a national legislation for IT security resulted. In addition to integrated software, stand-alone software as a medical device is also considered. It is shown, how both regulations, as well as national policy, take up the past problems inside this application field. A discussion about the effect, which the requirements for data security and data protection have on medical device market, finishes this thesis