Chung-Jiuan Jeng scite author profile

Densin-180 is a transmembrane protein that is tightly associated with the postsynaptic density in CNS neurons and is postulated to function as a synaptic adhesion molecule. Here we report the identification of the alpha-subunit of Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) and alpha-actinin-4 as potential binding partners for the densin-180 intracellular segment. We demonstrate by yeast two-hybrid and biochemical assays that the intracellular portion of densin-180, the alpha-subunit of CaMKII (CaMKIIalpha), and alpha-actinin interact with each other at distinct binding sites and can form a ternary complex stabilized by multiple interactions. Densin-180 binds specifically to the association domain of CaMKIIalpha and does not bind with high affinity to holoenzymes of CaMKII that contain beta-subunit. The PDZ (PSD-95, DIg, Z0-1) domain of densin contributes to its binding to alpha-actinin. A distinct domain of alpha-actinin interacts with the kinase domains of both alpha- and beta-subunits of CaMKII. Autophosphorylation of CaMKII increases its affinity for densin-180 from an EC(50) of >1 micrometer to an EC(50) of <75-150 nM. In contrast, phosphorylation of densin-180 by CaMKII at serine-1397 only slightly decreases its affinity for CaMKII. The specific interaction of densin-180 with holoenzymes of CaMKII containing only alpha-subunit and the increased affinity of CaMKII for densin-180 after autophosphorylation suggest that densin-180 may be involved in localization of activated CaMKII synthesized in dendrites.

show abstract

Cullin 7 mediates proteasomal and lysosomal degradations of rat Eag1 potassium channels

Hsu

Yu²,

Fang

et al. 2017

Sci Rep

View full text Add to dashboard Cite

Mammalian Eag1 (Kv10.1) potassium (K+) channels are widely expressed in the brain. Several mutations in the gene encoding human Eag1 K+ channel have been associated with congenital neurodevelopmental anomalies. Currently very little is known about the molecules mediating protein synthesis and degradation of Eag1 channels. Herein we aim to ascertain the protein degradation mechanism of rat Eag1 (rEag1). We identified cullin 7 (Cul7), a member of the cullin-based E3 ubiquitin ligase family, as a novel rEag1 binding partner. Immunoprecipitation analyses confirmed the interaction between Cul7 and rEag1 in heterologous cells and neuronal tissues. Cul7 and rEag1 also exhibited significant co-localization at synaptic regions in neurons. Over-expression of Cul7 led to reduced protein level, enhanced ubiquitination, accelerated protein turn-over, and decreased current density of rEag1 channels. We provided further biochemical and morphological evidence suggesting that Cul7 targeted endoplasmic reticulum (ER)- and plasma membrane-localized rEag1 to the proteasome and the lysosome, respectively, for protein degradation. Cul7 also contributed to protein degradation of a disease-associated rEag1 mutant. Together, these results indicate that Cul7 mediates both proteasomal and lysosomal degradations of rEag1. Our findings provide a novel insight to the mechanisms underlying ER and peripheral protein quality controls of Eag1 channels.

show abstract

Novel SCA19/22‐associated KCND3 mutations disrupt human K _V 4.3 protein biosynthesis and channel gating

Hsiao

Liu

et al. 2019

Human Mutation

View full text Add to dashboard Cite

Mutations in the human voltage‐gated K+ channel subunit KV4.3‐encoding KCND3 gene have been associated with the autosomal dominant neurodegenerative disorder spinocerebellar ataxia types 19 and 22 (SCA19/22). The precise pathophysiology underlying the dominant inheritance pattern of SCA19/22 remains elusive. Using cerebellar ataxia‐specific targeted next‐generation sequencing technology, we identified two novel KCND3 mutations, c.950 G>A (p.C317Y) and c.1123 C>T (p.P375S) from a cohort with inherited cerebellar ataxias in Taiwan. The patients manifested notable phenotypic heterogeneity that includes cognitive impairment. We employed in vitro heterologous expression systems to inspect the biophysical and biochemical properties of human KV4.3 harboring the two novel mutations, as well as two previously reported but uncharacterized disease‐related mutations, c.1013 T>A (p.V338E) and c.1130 C>T (p.T377M). Electrophysiological analyses revealed that all of these SCA19/22‐associated KV4.3 mutant channels manifested loss‐of‐function phenotypes. Protein chemistry and immunofluorescence analyses further demonstrated that these mutants displayed enhanced protein degradation and defective membrane trafficking. By coexpressing KV4.3 wild‐type with the disease‐related mutants, we provided direct evidence showing that the mutants instigated anomalous protein biosynthesis and channel gating of KV4.3. We propose that the dominant inheritance pattern of SCA19/22 may be explained by the dominant‐negative effects of the mutants on protein biosynthesis and voltage‐dependent gating of KV4.3 wild‐type channel.

show abstract

The Roles of CD4⁺T Cells in Tumor Immunity

Lai

Jeng²,

Chen

2011

ISRN Immunology

View full text Add to dashboard Cite

Activation of CD8+cytotoxic T cells has long been regarded as a major antitumor mechanism of the immune system. Emerging evidence suggests that CD4+T cells are required for the generation and maintenance of effective CD8+cytotoxic and memory T cells, a phenomenon known as CD4+T-cell help. CD4+T-cell help facilitates the optimal expansion, trafficking, and effector function of CD8+T cells, thereby enhancing tumor destruction. In addition, a specialized subset of CD4+T cells, CD4+CD25+regulatory T cells (TRegs), effectively hampers anti-tumor immune responses, which has been proposed to be one of the major tumor immune evasion mechanisms. Here, we review recent advances in deciphering how anti-tumor immune responses are orchestrated by CD4+T cells. We will also discuss the immunotherapeutic potential of CD4+T-cell manipulation in anti-tumor immune response.

show abstract

Distal End of Carboxyl Terminus Is Not Essential for the Assembly of Rat Eag1 Potassium Channels

Chen¹,

Hu²,

Jow

et al. 2011

Journal of Biological Chemistry

View full text Add to dashboard Cite

The assembly of four pore-forming ␣-subunits into tetramers is a prerequisite for the formation of functional K ؉ channels. A short carboxyl assembly domain (CAD) in the distal end of the cytoplasmic carboxyl terminus has been implicated in the assembly of Eag ␣-subunits, a subfamily of the ether-à-go-go K ؉ channel family. The precise role of CAD in the formation of Eag tetrameric channels, however, remains unclear. Moreover, it has not been determined whether other protein regions also contribute to the assembly of Eag subunits. We addressed these questions by studying the biophysical properties of a series of different rat Eag1 (rEag1) truncation mutants. Two truncation mutants without CAD (K848X and W823X) yielded functional phenotypes similar to those for wild-type (WT) rEag1 channels. Furthermore, nonfunctional rEag1 truncation mutants lacking the distal region of the carboxyl terminus displayed substantial dominant-negative effects on the functional expression of WT as well as K848X and W823X channels. Our co-immunoprecipitation studies further revealed that truncation mutants containing no CAD indeed displayed significant association with rEag1-WT subunits. Finally, surface biotinylation and protein glycosylation analyses demonstrated that progressive truncations of the carboxyl terminus resulted in aggravating disruptions of membrane trafficking and glycosylation of rEag1 proteins. Overall, our data suggest that the distal carboxyl terminus, including CAD, is dispensable for the assembly of rEag1 K ؉ channels but may instead be essential for ensuring proper protein biosynthesis. We propose that the S6 segment and the proximal carboxyl terminus may constitute the principal subunit recognition site for the assembly of rEag1 channels.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Chung-Jiuan Jeng

Densin-180 Forms a Ternary Complex with the α-Subunit of Ca²⁺/Calmodulin-Dependent Protein Kinase II and α-Actinin

Cullin 7 mediates proteasomal and lysosomal degradations of rat Eag1 potassium channels

Novel SCA19/22‐associated KCND3 mutations disrupt human K _V 4.3 protein biosynthesis and channel gating

The Roles of CD4⁺T Cells in Tumor Immunity

Distal End of Carboxyl Terminus Is Not Essential for the Assembly of Rat Eag1 Potassium Channels

Contact Info

Product

Resources

About

Chung-Jiuan Jeng

Densin-180 Forms a Ternary Complex with the α-Subunit of Ca2+/Calmodulin-Dependent Protein Kinase II and α-Actinin

Cullin 7 mediates proteasomal and lysosomal degradations of rat Eag1 potassium channels

Novel SCA19/22‐associated KCND3 mutations disrupt human K V 4.3 protein biosynthesis and channel gating

The Roles of CD4+T Cells in Tumor Immunity

Distal End of Carboxyl Terminus Is Not Essential for the Assembly of Rat Eag1 Potassium Channels

Contact Info

Product

Resources

About

Densin-180 Forms a Ternary Complex with the α-Subunit of Ca²⁺/Calmodulin-Dependent Protein Kinase II and α-Actinin

Novel SCA19/22‐associated KCND3 mutations disrupt human K _V 4.3 protein biosynthesis and channel gating

The Roles of CD4⁺T Cells in Tumor Immunity