Transcription factor Oct4 plays critical roles in maintaining pluripotency and controlling lineage commitment of embryonic stem cells (ESCs). Our previous study indicates that Wwp2, a mouse HECT-type E3 ubiquitin li...Transcription factor Oct4 plays critical roles in maintaining pluripotency and controlling lineage commitment of embryonic stem cells (ESCs). Our previous study indicates that Wwp2, a mouse HECT-type E3 ubiquitin ligase, ubiquitinates Oct4 and promotes its degradation in a heterologous system. However, roles of Wwp2 in regulating en- dogenous Oct4 protein levels as well as molecular characteristics of the function of Wwp2 have not been determined. Here, we report that Wwp2 plays an important role in Oct4 ubiquitination and degradation during differentiation of embryonal carcinoma cells (ECCs), although it does not appear to affect Oct4 protein levels in the undifferentiated ECCs and ESCs. Importantly, inhibition of Wwp2 expression by specific RNA interference elevates the Oct4 protein level, leading to attenuation in retinoid acid-induced activation of differentiation-related marker genes. Mechanisti- cally, Wwp2 catalyzes Oct4 poly-ubiquitination via the lysine 63 linkage in a dosage-dependent manner. Interest- ingly, Wwp2 also regulates its own ligase activity in a similar manner. Moreover, auto-ubiquitination of Wwp2 occurs through an intra-molecular mechanism. Taken together, these results demonstrate a crucial role of Wwp2 in con- trolling endogenous Oct4 protein levels during differentiation processes of ECCs and suggest an interesting dosage- dependent mechanism for regulating the catalytic activity of the E3 ubiquitin ligase, Wwp2.展开更多
Testicular germ cell tumors(TGCTs)are a cancer pharmacology success story with a majority of patients cured even in the highly advanced and metastatic setting.Successful treatment of TGCTs is primarily due to the exqu...Testicular germ cell tumors(TGCTs)are a cancer pharmacology success story with a majority of patients cured even in the highly advanced and metastatic setting.Successful treatment of TGCTs is primarily due to the exquisite responsiveness of this solid tumor to cisplatin-based therapy.However,a significant percentage of patients are,or become,refractory to cisplatin and die from progressive disease.Mechanisms for both clinical hypersensitivity and resistance have largely remained a mystery despite the promise of applying lessons to the majority of solid tumors that are not curable in the metastatic setting.Recently,this promise has been heightened by the realization that distinct(and perhaps pharmacologically replicable)epigenetic states,rather than fixed genetic alterations,may play dominant roles in not only TGCT etiology and progression but also their curability with conventional chemotherapies.In this review,it discusses potential mechanisms of TGCT cisplatin sensitivity and resistance to conventional chemotherapeutics.展开更多
A novel nano-and micro-integrated protein chip(NMIPC)that can detect proteins with ultrahigh sensitivity has been fabricated.A microfl uidic network(μFN)was used to construct the protein chips,which allowed facile pa...A novel nano-and micro-integrated protein chip(NMIPC)that can detect proteins with ultrahigh sensitivity has been fabricated.A microfl uidic network(μFN)was used to construct the protein chips,which allowed facile patterning of proteins and subsequent biomolecular recognition.Aqueous phase-synthesized,water-soluble fl uorescent CdTe/CdS core-shell quantum dots(aqQDs),having high quantum yield and high photostability,were used as the signaling probe.Importantly,it was found that aqQDs were compatible with microfluidic format assays,which afforded highly sensitive protein chips for cancer biomarker assays.展开更多
基金We thank Dr Richard Baer (Pathology, Columbia University, New York, USA) for generously providing various Ub mutant plasmids. This study was supported by Grants from the National Natural Science Foundation of China (30871257, 30730051) and the National High Technology Research, Development Program of China (2006CB943901 and 2007CB947904), the Shanghai Sci- ence and Technology Developmental Foundation (08JC1413100) and the Shanghai Leading Academic Discipline Project ($30201).
文摘Transcription factor Oct4 plays critical roles in maintaining pluripotency and controlling lineage commitment of embryonic stem cells (ESCs). Our previous study indicates that Wwp2, a mouse HECT-type E3 ubiquitin ligase, ubiquitinates Oct4 and promotes its degradation in a heterologous system. However, roles of Wwp2 in regulating en- dogenous Oct4 protein levels as well as molecular characteristics of the function of Wwp2 have not been determined. Here, we report that Wwp2 plays an important role in Oct4 ubiquitination and degradation during differentiation of embryonal carcinoma cells (ECCs), although it does not appear to affect Oct4 protein levels in the undifferentiated ECCs and ESCs. Importantly, inhibition of Wwp2 expression by specific RNA interference elevates the Oct4 protein level, leading to attenuation in retinoid acid-induced activation of differentiation-related marker genes. Mechanisti- cally, Wwp2 catalyzes Oct4 poly-ubiquitination via the lysine 63 linkage in a dosage-dependent manner. Interest- ingly, Wwp2 also regulates its own ligase activity in a similar manner. Moreover, auto-ubiquitination of Wwp2 occurs through an intra-molecular mechanism. Taken together, these results demonstrate a crucial role of Wwp2 in con- trolling endogenous Oct4 protein levels during differentiation processes of ECCs and suggest an interesting dosage- dependent mechanism for regulating the catalytic activity of the E3 ubiquitin ligase, Wwp2.
基金This work was supported by NIHNational Cancer Institute grant(R01CA211875),(R03CA223709)a Reach Grant from the Alex’s Lemonade Stand Foundation(MJS).
文摘Testicular germ cell tumors(TGCTs)are a cancer pharmacology success story with a majority of patients cured even in the highly advanced and metastatic setting.Successful treatment of TGCTs is primarily due to the exquisite responsiveness of this solid tumor to cisplatin-based therapy.However,a significant percentage of patients are,or become,refractory to cisplatin and die from progressive disease.Mechanisms for both clinical hypersensitivity and resistance have largely remained a mystery despite the promise of applying lessons to the majority of solid tumors that are not curable in the metastatic setting.Recently,this promise has been heightened by the realization that distinct(and perhaps pharmacologically replicable)epigenetic states,rather than fixed genetic alterations,may play dominant roles in not only TGCT etiology and progression but also their curability with conventional chemotherapies.In this review,it discusses potential mechanisms of TGCT cisplatin sensitivity and resistance to conventional chemotherapeutics.
基金This work was supported by the National Natural Science Foundation(20873175 and 20725516)the Ministry of Science and Technology(2006CB933000,2007CB936000,and 2007AA06A406)the Shanghai Municipal Commission for Science and Technology(0852nm00400,0752nm021).
文摘A novel nano-and micro-integrated protein chip(NMIPC)that can detect proteins with ultrahigh sensitivity has been fabricated.A microfl uidic network(μFN)was used to construct the protein chips,which allowed facile patterning of proteins and subsequent biomolecular recognition.Aqueous phase-synthesized,water-soluble fl uorescent CdTe/CdS core-shell quantum dots(aqQDs),having high quantum yield and high photostability,were used as the signaling probe.Importantly,it was found that aqQDs were compatible with microfluidic format assays,which afforded highly sensitive protein chips for cancer biomarker assays.
