On-target action of anti-tropomyosin drugs regulates glucose metabolism

The development of novel small molecule inhibitors of the cancer-associated tropomyosin 3.1 (Tpm3.1) provides the ability to examine the metabolic function of specific actin filament populations. We have determined the ability of these anti-Tpm (ATM) compounds to regulate glucose metabolism in mice. Acute treatment (1 h) of wild-type (WT) mice with the compounds (TR100 and ATM1001) led to a decrease in glucose clearance due mainly to suppression of glucose-stimulated insulin secretion (GSIS) from the pancreatic islets. The impact of the drugs on GSIS was significantly less in Tpm3.1 knock out (KO) mice indicating that the drug action is on-target. Experiments in MIN6 β-cells indicated that the inhibition of GSIS by the drugs was due to disruption to the cortical actin cytoskeleton. The impact of the drugs on insulin-stimulated glucose uptake (ISGU) was also examined in skeletal muscle ex vivo. In the absence of drug, ISGU was decreased in KO compared to WT muscle, confirming a role of Tpm3.1 in glucose uptake. Both compounds suppressed ISGU in WT muscle, but in the KO muscle there was little impact of the drugs. Collectively, this data indicates that the ATM drugs affect glucose metabolism in vivo by inhibiting Tpm3.1’s function with few off-target effects.

• Publication year

  2018

• Venue

  Scientific Reports

• Publication date

  2018-03-15

• Fields of study

  Medicine, Chemistry

• Identifiers
  DOI 10.1038/s41598-018-22946-xPMID 29545590PMCID 5854615
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

• Identification of Cancer-Targeted Tropomyosin Inhibitors and Their Synergy with Microtubule Drugs

  2017cited by this paper
• Mutations in tropomyosin 4 underlie a rare form of human macrothrombocytopenia

  2017cited by this paper
• Competition between Tropomyosin, Fimbrin, and ADF/Cofilin drives their sorting to distinct actin filament networks

  2017cited by this paper
• A small molecule inhibitor of tropomyosin dissociates actin binding from tropomyosin-directed regulation of actin dynamics

  2016cited by this paper
• Disrupted dynamics of F-actin and insulin granule fusion in INS-1 832/13 beta-cells exposed to glucotoxicity: partial restoration by glucagon-like peptide 1.

  2016cited by this paper
• The balance between adaptive and apoptotic unfolded protein responses regulates β-cell death under ER stress conditions through XBP1, CHOP and JNK.

  2015cited by this paper
• Actin depolymerisation and crosslinking join forces with myosin II to contract actin coats on fused secretory vesicles

  2015cited by this paper
• Tropomodulin3 is a novel Akt2 effector regulating insulin-stimulated GLUT4 exocytosis through cortical actin remodeling

  2015cited by this paper
• The skeleton in the closet: actin cytoskeletal remodeling in β-cell function.

  2015cited by this paper
• A novel tropomyosin isoform functions at the mitotic spindle and Golgi in Drosophila

  2015cited by this paper
• Regulation of cell proliferation by ERK and signal-dependent nuclear translocation of ERK is dependent on Tm5NM1-containing actin filaments

  2015cited by this paper
• The evolution of compositionally and functionally distinct actin filaments

  2015cited by this paper
• Tropomyosin – master regulator of actin filament function in the cytoskeleton

  2015cited by this paper
• A novel tropomyosin isoform functions at the mitotic spindle and Golgi in Drosophila

  2015cited by this paper
• An Actin Filament Population Defined by the Tropomyosin Tpm3.1 Regulates Glucose Uptake

  2015cited by this paper
• Tropomyosin isoforms support actomyosin biogenesis to generate contractile tension at the epithelial zonula adherens

  2014cited by this paper
• Regulation of myosin IIA and filamentous actin during insulin-stimulated glucose uptake in 3T3-L1 adipocytes.

  2014cited by this paper
• Signal transduction meets vesicle traffic: the software and hardware of GLUT4 translocation.

  2014cited by this paper
• A novel class of anticancer compounds targets the actin cytoskeleton in tumor cells.

  2013cited by this paper
• Failure of the Adaptive Unfolded Protein Response in Islets of Obese Mice Is Linked With Abnormalities in β-Cell Gene Expression and Progression to Diabetes

  2013cited by this paper
• The effects of jaspamide on human cardiomyocyte function and cardiac ion channel activity.

  2013cited by this paper
• Actin coats and rings promote regulated exocytosis.

  2012cited by this paper
• Tropomyosin isoforms and reagents

  2011cited by this paper
• Role for the actomyosin complex in regulated exocytosis revealed by intravital microscopy

  2011cited by this paper
• A molecular pathway for myosin II recruitment to stress fibers.

  2011cited by this paper
• Myosin motor proteins are involved in the final stages of the secretory pathways.

  2011cited by this paper
• GLUT4 exocytosis

  2011cited by this paper
• Functional identity of the Gamma Tropomyosin gene

  2011cited by this paper
• Tropomyosin: the gatekeeper's view of the actin filament revealed.

  2011cited by this paper
• Mapping Insulin/GLUT4 Circuitry

  2011cited by this paper
• New insights into the control of secretion

  2009cited by this paper
• Cytoskeletal tropomyosin Tm5NM1 is required for normal excitation-contraction coupling in skeletal muscle.

  2009cited by this paper
• Structure of the N terminus of a nonmuscle alpha-tropomyosin in complex with the C terminus: implications for actin binding.

  2009cited by this paper
• Cooperative binding of tropomyosin to actin.

  2008cited by this paper
• Rapid activation of Akt2 is sufficient to stimulate GLUT4 translocation in 3T3-L1 adipocytes.

  2008cited by this paper
• The Protein Data Bank: a historical perspective.

  2008cited by this paper
• Dual role for myosin II in GLUT4-mediated glucose uptake in 3T3-L1 adipocytes.

  2008cited by this paper
• The SWISS-MODEL workspace: a web-based environment for protein structure homology modelling

  2006cited by this paper
• Regulation of pancreatic β-cell insulin secretion by actin cytoskeleton remodelling: role of gelsolin and cooperation with the MAPK signalling pathway

  2006cited by this paper
• Tropomyosin isoforms localize to distinct microfilament populations in osteoclasts.

  2006cited by this paper
• Scalable molecular dynamics with NAMD

  2005cited by this paper
• Tissue-specific Tropomyosin Isoform Composition

  2005cited by this paper
• Marine natural products and related compounds in clinical and advanced preclinical trials.

  2004cited by this paper
• Sorting of a nonmuscle tropomyosin to a novel cytoskeletal compartment in skeletal muscle results in muscular dystrophy

  2004cited by this paper
• Specification of actin filament function and molecular composition by tropomyosin isoforms.

  2003cited by this paper
• Glucose-stimulated insulin secretion is coupled to the interaction of actin with the t-SNARE (target membrane soluble N-ethylmaleimide-sensitive factor attachment protein receptor protein) complex.

  2003cited by this paper
• Regulation of contraction in striated muscle.

  2000cited by this paper
• A method for computational combinatorial peptide design of inhibitors of Ras protein.

  1999cited by this paper
• Specific Isoforms of Actin-binding Proteins on Distinct Populations of Golgi-derived Vesicles*

  1999cited by this paper
• Tropomyosin localization reveals distinct populations of microfilaments in neurites and growth cones.

  1997cited by this paper
• Homology modelling and 1H NMR studies of human leukaemia inhibitory factor

  1994cited by this paper
• Suitability of 2-deoxyglucose for in vitro measurement of glucose transport activity in skeletal muscle.

  1994cited by this paper
• Density-functional exchange-energy approximation with correct asymptotic behavior.

  1988cited by this paper
• Differential localization of tropomyosin isoforms in cultured nonmuscle cells

  1988cited by this paper
• Development of the Colle-Salvetti correlation-energy formula into a functional of the electron density.

  1988cited by this paper
• Self‐consistent molecular orbital methods. XX. A basis set for correlated wave functions

  1980cited by this paper
• Report tional Properties of Actin Filaments in Yeast

  year unknowncited by this paper

• HIF-1–regulated TPM3 links hypoxia to motility and invasion beyond the hypoxic fraction in triple-negative breast cancer

  2026cites this paper
• The tropomyosin 3.1/3.2 inhibitor ATM-3507 alters B-cell actin dynamics and impairs the growth and motility of diffuse large B-cell lymphoma cell lines

  2025cites this paper
• A truncation mutant of adenomatous polyposis coli impairs apical cell extrusion through elevated epithelial tissue tension

  2024influential citation
• Motor properties of Myosin 5c are modulated by tropomyosin isoforms and inhibited by pentabromopseudilin

  2024cites this paper
• TPM2 attenuates progression of prostate cancer by blocking PDLIM7-mediated nuclear translocation of YAP1

  2023cites this paper
• Preexisting tissue mechanical hypertension at adherens junctions disrupts apoptotic extrusion in epithelia

  2023cites this paper
• Pre-existing tissue mechanical hypertension at adherens junctions disrupts apoptotic extrusion in epithelia

  2023cites this paper
• Research Advances in the Role of the Tropomyosin Family in Cancer

  2023cites this paper
• Stress deprivation of tendon explants or Tpm3.1 inhibition in tendon cells reduces F-actin to promote a tendinosis-like phenotype

  2022cites this paper
• Destabilization of F-actin by Mechanical Stress Deprivation or Tpm3.1 Inhibition Promotes a Pathological Phenotype in Tendon Cells

  2022cites this paper
• Targeting the cytoskeleton against metastatic dissemination

  2021cites this paper
• A small molecule inhibitor of PCSK9 that antagonizes LDL receptor binding via interaction with a cryptic PCSK9 binding groove.

  2020cites this paper
• Tropomodulins Control the Balance between Protrusive and Contractile Structures by Stabilizing Actin-Tropomyosin Filaments.

  2020cites this paper
• Integration of single-cell datasets reveals novel transcriptomic signatures of β-cells in human type 2 diabetes

  2020cites this paper
• Impact of the actin cytoskeleton on cell development and function mediated via tropomyosin isoforms.

  2020cites this paper
• Actin–tropomyosin distribution in non-muscle cells

  2019cites this paper
• Chemical biology approaches targeting the actin cytoskeleton through phenotypic screening.

  2019cites this paper
• A new twist on tropomyosin binding to actin filaments: perspectives on thin filament function, assembly and biomechanics

  2019cites this paper
• Targeting and extending the eukaryotic druggable genome with natural products: cytoskeletal targets of natural products.

  2019cites this paper
• Tropomyosin Tpm3.1 Is Required to Maintain the Structure and Function of the Axon Initial Segment

  2019cites this paper
• Molecular integration of the anti-tropomyosin compound ATM-3507 into the coiled coil overlap region of the cancer-associated Tpm3.1

  2019cites this paper
• Small molecule targeting of the actin associating protein tropomyosin Tpm3.1 increases neuroblastoma cell response to inhibition of Rac‐mediated multicellular invasion

  2018influential citation