Kevin Berman scite author profile

Mitogen-activated protein (MAP) kinases comprise a family of ubiquitous proline-directed, protein-serine/threonine kinases, which participate in signal transduction pathways that control intracellular events including acute responses to hormones and major developmental changes in organisms. MAP kinases lie in protein kinase cascades. This review discusses the regulation and functions of mammalian MAP kinases. Nonenzymatic mechanisms that impact MAP kinase functions and findings from gene disruption studies are highlighted. Particular emphasis is on ERK1/2.

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Isolation of TAO1, a Protein Kinase That Activates MEKs in Stress-activated Protein Kinase Cascades

Hutchison

Berman

Cobb

1998

Journal of Biological Chemistry

135

161

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Several components of the budding yeast pheromoneresponse pathway are conserved in mammalian mitogen-activated protein (MAP) kinase pathways. Thus, we used degenerate oligonucleotides derived from the sequence of the Saccharomyces cerevisiae protein kinase Ste20p to amplify related sequences from the rat. One of these sequences was used to clone a rat Ste20p homolog, which we called TAO1 for its one thousand and one amino acids. Northern analysis shows TAO1 is highly expressed in brain, as is a homolog TAO2. Recombinant TAO1 was expressed and purified from Sf9 cells. In vitro, it activated MAP/extracellular signal-regulated protein kinase (ERK) kinases ( 1-3). The parallel nature of the yeast and mammalian pathways was first realized when sequences of mammalian ERKs and yeast MAP kinases, KSS1 and FUS3, became available (4 -6). Subsequently, information from the yeast pathways has been exploited to identify components and understand relationships in the mammalian cascades. More than a dozen mammalian MAP kinases that lie in several distinct cascades (7,8) are now known. Fidelity in these pathways is maintained in part by the substrate specificity of the MEK family member. These cascades are differentially responsive to cellular stimuli, including proliferative and survival factors and stress. Several of the mammalian cascades share some regulatory features with yeast systems. The best delineated yeast MAP kinase pathway, activated by mating pheromones, is controlled by a receptor-G protein system and requires at least three protein kinases, Ste20p, Ste11p, and

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Tyrosine Phosphorylation Modulates Current Amplitude and Kinetics of a Neuronal Voltage-Gated Potassium Channel

Fadool

Holmes

Berman

et al. 1997

Journal of Neurophysiology

112

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The modulation of the Kv1.3 potassium channel by tyrosine phosphorylation was studied. Kv1.3 was expressed in human embryonic kidney (HEK 293) cells, and its activity was measured by cell-attached patch recording. The amplitude of the characteristic C-type inactivating Kv1.3 current is reduced by >95%, in all cells tested, when the channel is co-expressed with the constitutively active nonreceptor tyrosine kinase, v-Src. This v-Src-induced suppression of current is accompanied by a robust tyrosine phosphorylation of the channel protein. No suppression of current or tyrosine phosphorylation of Kv1.3 protein is observed when the channel is co-expressed with R385A v-Src, a mutant with severely impaired tyrosine kinase activity. v-Src-induced suppression of Kv1.3 current is relieved by pretreatment of the HEK 293 cells with two structurally different tyrosine kinase inhibitors, herbimycin A and genistein. Furthermore, Kv1.3 channel protein is processed properly and targeted to the plasma membrane in v-Src cotransfected cells, as demonstrated by confocal microscopy using an antibody directed against an extracellular epitope on the channel. Thus v-Src-induced suppression of Kv1.3 current is not mediated through decreased channel protein expression or interference with its targeting to the plasma membrane. v-Src co-expression also slows the C-type inactivation and speeds the deactivation of the residual Kv1.3 current. Mutational analysis demonstrates that each of these modulatory changes, in current amplitude and kinetics, requires the phosphorylation of Kv1.3 at multiple tyrosine residues. Furthermore, a different combination of tyrosine residues is involved in each of the modulatory changes. These results emphasize the complexity of signal integration at the level of a single ion channel.

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Isolation and Characterization of pmk-(1–3): Three p38 Homologs in Caenorhabditis elegans

Berman

McKay²,

Avery³

et al. 2001

Molecular Cell Biology Research Communications

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p38, a member of the mitogen-activated protein kinase (MAPK) superfamily, is activated in response to a variety of cellular stresses and ligands. Since the genome of the nematode C. elegans has been sequenced, we sought to identify and characterize the nematode homolog of mammalian p38. By sequence analysis and RT-PCR, we isolated cDNAs encoding three kinases, PMK-1, PMK-2, and PMK-3, which we call p38 map kinases due to their high sequence identity with p38. The three genes are contiguous on chromosome IV and comprise an operon. By use of a GFP reporter, we found that the promoter of the pmks is active throughout the intestine. An active form of MAPK/ERK kinase 6 (MEK6) phosphorylated and activated recombinant PMK-1 and PMK-2 in vitro. PMK-1 and PMK-2 phosphorylated activating transcription factor-2 (ATF-2), indicating an activity similar to mammalian p38. When transfected into mammalian cells, these kinases, like p38, are stimulated by osmotic stresses.

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Eating attitudes in seasonal affective disorder and bulimia nervosa

Berman¹,

Lam²,

Goldner³

1993

Journal of Affective Disorders

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Kevin Berman

Mitogen-Activated Protein (MAP) Kinase Pathways: Regulation and Physiological Functions*

Isolation of TAO1, a Protein Kinase That Activates MEKs in Stress-activated Protein Kinase Cascades

Tyrosine Phosphorylation Modulates Current Amplitude and Kinetics of a Neuronal Voltage-Gated Potassium Channel

Isolation and Characterization of pmk-(1–3): Three p38 Homologs in Caenorhabditis elegans

Eating attitudes in seasonal affective disorder and bulimia nervosa

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