Dana Richards scite author profile

Medetomidine (10, 20, 40 μg/kg) was used as a premedicant before thiopentone, halothane and nitrous oxide anaesthesia in 60 dogs undergoing a variety of elective surgical and diagnostic procedures at the University of Liverpool Small Animal Hospital. The efficacy of the sedation produced by the three dose groups was evaluated using a sedation scoring system which is presented. Induction of anaesthesia was accomplished using 1–25 per cent thiopentone sodium administered slowly to effect. The mean dose of thiopentone required for intubation following 10 μ‐g/kg medetomidine (group 1) was 6–9 mg/kg (SD ± 2–3 mg/kg), following 20 μ‐g/kg medetomidine (group 2) was 4–5 mg/kg (SD ± 1–6 mg/kg) and following 40 μg/kg (group 3) was 2–4 mg/kg (SD ± 2–5 mg/kg). Induction of anaesthesia was generally smooth and significant apnoea (greater than 45 seconds) was not noted. Anaesthesia was maintained in all cases using halothane vapourised in a one part oxygen to two parts nitrous oxide mixture, delivered to the patient via a suitable non‐breathing circuit (Magill, Bain or T Piece). At the conclusion of the procedure, atipamezole (50, 100, 200 μg/kg) was administered intramuscularly to half of the dogs in each group (10 dogs). Dogs receiving atipamezole recovered rapidly and smoothly to sternal recumbency, group 1 taking 8‐5 minutes (SD ± 2–7 minutes), group 2 taking 11‐8 minutes (SD ± 3–6 minutes), and group 3 taking 12‐6 minutes (sd ± 4–5 minutes). When atipamezole was not administered a dose dependent increase in recumbency time occurred.

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c-Abl and Arg induce cathepsin-mediated lysosomal degradation of the NM23-H1 metastasis suppressor in invasive cancer

Fiore

Ganguly

Sledziona

et al. 2013

Oncogene

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Metastasis suppressors comprise a growing class of genes whose downregulation triggers metastatic progression. In contrast to tumor suppressors, metastasis suppressors are rarely mutated or deleted, and little is known regarding the mechanisms by which their expression is downregulated. Here, we demonstrate that the metastasis suppressor, NM23-H1, is degraded by lysosomal cysteine cathepsins (L,B), which directly cleave NM23-H1. In addition, activation of c-Abl and Arg oncoproteins induces NM23-H1 degradation in invasive cancer cells by increasing cysteine cathepsin transcription and activation. Moreover, c-Abl activates cathepsins by promoting endosome maturation, which facilitates trafficking of NM23-H1 to the lysosome where it is degraded. Importantly, the invasion- and metastasis-promoting activity of c-Abl/Arg is dependent on their ability to induce NM23-H1 degradation, and the pathway is clinically relevant as c-Abl/Arg activity and NM23-H1 expression are inversely correlated in primary breast cancers and melanomas. Thus, we demonstrate a novel mechanism by which cathepsin expression is upregulated in cancer cells (via Abl kinases). We also identify a novel role for intracellular cathepsins in invasion and metastasis (degradation of a metastasis suppressor). Finally, we identify novel crosstalk between oncogenic and metastasis suppressor pathways, thereby providing mechanistic insight into the process of NM23-H1 loss, which may pave the way for new strategies to restore NM23-H1 expression and block metastatic progression.

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Abl and Arg mediate cysteine cathepsin secretion to facilitate melanoma invasion and metastasis

et al. 2018

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The incidence of melanoma is increasing, particularly in young women, and the disease remains incurable for many because of its aggressive, metastatic nature and its high rate of resistance to conventional, targeted, and immunological agents. Cathepsins are proteases that are critical for melanoma progression and therapeutic resistance. Intracellular cathepsins cleave or degrade proteins that restrict cancer progression, whereas extracellular cathepsins directly cleave the extracellular matrix and activate proinvasive proteases in the tumor microenvironment. Cathepsin secretion is markedly increased in cancer cells. We investigated the signaling pathways leading to increased cathepsin secretion in melanoma cells. We found that the nonreceptor tyrosine kinases Abl and Arg (Abl/Arg) promoted the secretion of cathepsin B and cathepsin L by activating transcription factors (namely, Ets1, Sp1, and NF-κB/p65) that have key roles in the epithelial-mesenchymal transition (EMT), invasion, and therapeutic resistance. In some melanoma cell lines, Abl/Arg promoted the Ets1/p65-induced secretion of cathepsin B and cathepsin L in a kinase-independent manner, whereas in other melanoma lines, Abl/Arg promoted the kinase-dependent, Sp1/Ets1/p65-mediated induction of cathepsin L secretion and the Sp1/p65-mediated induction of cathepsin B secretion. As an indication of clinical relevance, the abundance of mRNAs encoding Abl/Arg, Sp1, Ets1, and cathepsins was positively correlated in primary melanomas, and Abl/Arg-driven invasion in culture and metastasis in vivo required cathepsin secretion. These data suggest that drugs targeting Abl kinases, many of which are FDA-approved, might inhibit cathepsin secretion in some melanomas and potentially other aggressive cancers harboring activated Abl kinases.

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Combating acquired resistance to MAPK inhibitors in melanoma by targeting Abl1/2-mediated reactivation of MEK/ERK/MYC signaling

et al. 2020

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Metastatic melanoma remains an incurable disease for many patients due to the limited success of targeted and immunotherapies. BRAF and MEK inhibitors reduce metastatic burden for patients with melanomas harboring BRAF mutations; however, most eventually relapse due to acquired resistance. Here, we demonstrate that ABL1/2 kinase activities and/or expression are potentiated in cell lines and patient samples following resistance, and ABL1/2 drive BRAF and BRAF/MEK inhibitor resistance by inducing reactivation of MEK/ERK/MYC signaling. Silencing/inhibiting ABL1/2 blocks pathway reactivation, and resensitizes resistant cells to BRAF/MEK inhibitors, whereas expression of constitutively active ABL1/2 is sufficient to promote resistance. Significantly, nilotinib (2nd generation ABL1/2 inhibitor) reverses resistance, in vivo, causing prolonged regression of resistant tumors, and also, prevents BRAFi/MEKi resistance from developing in the first place. These data indicate that repurposing the FDA-approved leukemia drug, nilotinib, may be effective for prolonging survival for patients harboring BRAF-mutant melanomas.

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Electrocardiographic findings following intravenous glycopyrrolate to sedated dogs: a comparison with atropine

Richards

Clutton

Boyd

1989

Journal of the Association of Veterinary Anaesthetists of Great

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Dana Richards

Medetomidine as a premedicant in dogs and its reversal by atipamezole

c-Abl and Arg induce cathepsin-mediated lysosomal degradation of the NM23-H1 metastasis suppressor in invasive cancer

Abl and Arg mediate cysteine cathepsin secretion to facilitate melanoma invasion and metastasis

Combating acquired resistance to MAPK inhibitors in melanoma by targeting Abl1/2-mediated reactivation of MEK/ERK/MYC signaling

Electrocardiographic findings following intravenous glycopyrrolate to sedated dogs: a comparison with atropine

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