Paul W. Kriebel scite author profile

Hepatocyte growth factor͞scatter factor (HGF͞SF) is a mesenchymally derived, multifunctional paracrine regulator possessing mitogenic, motogenic, and morphogenetic activities in cultured epithelial cells containing its tyrosine kinase receptor, Met. c-met has been implicated in oncogenesis through correlation of expression with malignant phenotype in specific cell lines and tumors. Paradoxically, however, HGF͞SF can also inhibit the growth of some tumor cells. To elucidate the oncogenic role of HGF͞SF in vivo, transgenic mice were created such that HGF͞SF was inappropriately targeted to a variety of tissues. HGF͞SF transgenic mice developed a remarkably broad array of histologically distinct tumors of both mesenchymal and epithelial origin. Many neoplasms arose from tissues exhibiting abnormal development, including the mammary gland, skeletal muscle, and melanocytes, suggesting a functional link between mechanisms regulating morphogenesis and those promoting tumorigenesis. Most neoplasms, especially melanomas, demonstrated overexpression of both the HGF͞SF transgene and endogenous c-met, and had enhanced Met kinase activity, strongly suggesting that autocrine signaling broadly promotes tumorigenesis. Thus, subversion of normal mesenchymalepithelial paracrine regulation through the forced misdirection of HGF͞SF expression induces aberrant morphogenesis and subsequent malignant transformation of cells of diverse origin.

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Adenylyl Cyclase Localization Regulates Streaming during Chemotaxis

Kriebel

Barr

Parent

2003

Cell

142

161

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We studied the role of the adenylyl cyclase ACA in Dictyostelium discoideum chemotaxis and streaming. In this process, cells orient themselves in a head to tail fashion as they are migrating to form aggregates. We show that cells lacking ACA are capable of moving up a chemoattractant gradient, but are unable to stream. Imaging of ACA-YFP reveals plasma membrane labeling highly enriched at the uropod of polarized cells. This localization requires the actin cytoskeleton but is independent of the regulator CRAC and the effector PKA. A constitutively active mutant of ACA shows dramatically reduced uropod enrichment and has severe streaming defects. We propose that the asymmetric distribution of ACA provides a compartment from which cAMP is secreted to locally act as a chemoattractant, thereby providing a unique mechanism to amplify chemical gradients. This could represent a general mechanism that cells use to amplify chemotactic responses.

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Collective cell migration requires vesicular trafficking for chemoattractant delivery at the trailing edge

et al. 2008

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Chemoattractant signaling induces the polarization and directed movement of cells secondary to the activation of multiple effector pathways. In addition, chemotactic signals can be amplified and relayed to proximal cells via the synthesis and secretion of additional chemoattractant. The mechanisms underlying such remarkable features remain ill defined. We show that the asymmetrical distribution of adenylyl cyclase (ACA) at the back of Dictyostelium discoideum cells, an essential determinant of their ability to migrate in a head-to-tail fashion, requires vesicular trafficking. This trafficking results in a local accumulation of ACA-containing intracellular vesicles and involves intact actin, microtubule networks, and de novo protein synthesis. We also show that migrating cells leave behind ACA-containing vesicles, likely secreted as multivesicular bodies and presumably involved in the formation of head-to-tail arrays of migrating cells. We propose that similar compartmentalization and shedding mechanisms exist in mammalian cells during embryogenesis, wound healing, neuron growth, and metastasis.

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Cell speed, persistence and information transmission during signal relay and collective migration

McCann

Kriebel

Parent

et al. 2010

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SummaryCollective migration is a key feature of the social amoebae Dictyostelium discoideum, where the binding of chemoattractants leads to the production and secretion of additional chemoattractant and the relay of the signal to neighboring cells. This then guides cells to migrate collectively in a head-to-tail fashion. We used mutants that were defective in signal relay to elucidate which quantitative metrics of cell migration are most strongly affected by signal relay and collective motion. We show that neither signal relay nor collective motion markedly impact the speed of cell migration. Cells maintained a preferred overall direction of motion for several minutes with similar persistence, regardless of whether or not they were attracted to moving neighbors, moving collectively in contact with their neighbors, or simply following a fixed exogenous signal. We quantitatively establish that signal relay not only increases the number of cells that respond to a chemotactic signal, but most remarkably, also transmits information about the location of the source accurately over large distances, independently of the strength of the exogenous signal. We envision that signal relay has a similar key role in the migration of a variety of chemotaxing mammalian cells that can relay chemoattractant signals.

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Extracellular vesicles direct migration by synthesizing and releasing chemotactic signals

Kriebel

Majumdar

Jenkins

et al. 2018

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Chemotactic signals are relayed to neighboring cells through the secretion of additional chemoattractants. We previously showed in that the adenylyl cyclase A, which synthesizes the chemoattractant cyclic adenosine monophosphate (cAMP), is present in the intraluminal vesicles of multivesicular bodies (MVBs) that coalesce at the back of cells. Using ultrastructural reconstructions, we now show that ACA-containing MVBs release their contents to attract neighboring cells. We show that the released vesicles are capable of directing migration and streaming and are central to chemotactic signal relay. We demonstrate that the released vesicles not only contain cAMP but also can actively synthesize and release cAMP to promote chemotaxis. Through proteomic, pharmacological, and genetic approaches, we determined that the vesicular cAMP is released via the ABCC8 transporter. Together, our findings show that extracellular vesicles released by cells are functional entities that mediate signal relay during chemotaxis and streaming.

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Adenylyl Cyclase Expression and Regulation During the Differentiation of Dictyostelium Discoideum

Kriebel

Parent

2004

IUBMB Life

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SummaryCyclic AMP metabolism is essential for the survival of the social amoebae Dictyostelium discoideum. Three distinct adenylyl cyclases are expressed and required for the normal development of this simple eukaryote. The adenylyl cyclase expressed during aggregation, ACA, is related to the mammalian and Drosophila G protein-coupled enzymes and is responsible for the synthesis of cAMP that is required for cell-cell signaling in early development. ACB harbors histidine kinase and response-regulator domains and is required for terminal differentiation. Finally, the adenylyl cyclase expressed during germination, ACG, acts as an osmosensor and is involved in controlling spore germination. Together, these enzymes generate the various levels of cAMP that are required for D. discoideum to transition from uni-to multi-cellularity. This review will highlight the properties of these enzymes and describe the signaling cascades that lead to their activation. IUBMB Life, 56: 541-546, 2004

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Expression of Y53A-Actin in Dictyostelium Disrupts the Cytoskeleton and Inhibits Intracellular and Intercellular Chemotactic Signaling

Shu

Liu

Kriebel

et al. 2010

Journal of Biological Chemistry

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We showed previously that phosphorylation of Tyr 53 , or its mutation to Ala, inhibits actin polymerization in vitro with formation of aggregates of short filaments, and that expression of Y53A-actin in Dictyostelium blocks differentiation and development at the mound stage (Liu, X., Shu, S. We now show that expression of Y53A-actin, which does not affect cell growth, phagocytosis, or pinocytosis, inhibits the formation of head-to-tail cell streams during cAMP-induced aggregation, although individual amoebae chemotax normally. We show that expression of Y53A-actin causes a 50% reduction of cell surface cAMP receptors, and inhibits cAMPinduced increases in adenylyl cyclase A activity, phosphorylation of ERK2, and actin polymerization. Trafficking of vesicles containing adenylyl cyclase A to the rear of the cell and secretion of the ACA vesicles are also inhibited. The actin cytoskeleton of cells expressing Y53A-actin is characterized by numerous short filaments, and bundled and aggregated filaments similar to the structures formed by copolymerization of purified Y53A-actin and wild-type actin in vitro. This disorganized actin cytoskeleton may be responsible for the inhibition of intracellular and intercellular cAMP signaling in cells expressing F-Y53A-actin.

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Actin cross-linking proteins cortexillin I and II are required for cAMP signaling duringDictyosteliumchemotaxis and development

Shu

Liu

Kriebel

et al. 2012

MBoC

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Paul W. Kriebel

Diverse tumorigenesis associated with aberrant development in mice overexpressing hepatocyte growth factor/scatter factor

Adenylyl Cyclase Localization Regulates Streaming during Chemotaxis

Collective cell migration requires vesicular trafficking for chemoattractant delivery at the trailing edge

Cell speed, persistence and information transmission during signal relay and collective migration

Extracellular vesicles direct migration by synthesizing and releasing chemotactic signals

Adenylyl Cyclase Expression and Regulation During the Differentiation of Dictyostelium Discoideum

Expression of Y53A-Actin in Dictyostelium Disrupts the Cytoskeleton and Inhibits Intracellular and Intercellular Chemotactic Signaling

Actin cross-linking proteins cortexillin I and II are required for cAMP signaling duringDictyosteliumchemotaxis and development

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