Repression of transcriptional activity of estrogen receptor alpha by a Cullin3/SPOP ubiquitin E3 ligase complex

The role of SPOP in the ubiquitination of ER alpha by the Cullin3-based E3 ubiquitin ligase complex was investigated. We showed that the N-terminal region of SPOP containing the MATH domain interacts with the AF-2 domain of ER alpha in cultured human embryonic 293 cells. SPOP was required for coimmunoprecipitation of ER alpha; with Cullin3. This is the first report of the essential role of SPOP in ERalpha ubiquitination by the Cullin3-based E3 ubiquitin ligase complex. We also demonstrated repression of the transactivation capability of ER alpha; in cultured mammalian cells.     

Cysteamine selectively enhances neuropeptide Y2 receptor binding activity.

Affinity labeling of [125I]NPY to the bovine hippocampal NPY receptor has revealed a 50 kDa specific binding protein, the Y2 receptor. Cysteamine (10 microM - 10 mM) specifically enhanced NPY specific labeling of the Y2 receptor without affecting cross-linking efficiency. Several structurally related agents, including reduced glutathione, cysteine, beta-mercaptoethanol and ethanolamine, were without effect on receptor binding. The enhancement of binding by cysteamine could be reversed by washing the membranes. These studies suggest that cysteamine may change the conformation of the NPY Y2 receptor and increase its binding activity.     

The human estrogen receptor has transcriptional activator and repressor functions in the absence of ligand

Most studies on the cloned human estrogen receptor (hER) have been conducted with a mutant receptor in which Gly400 is changed to Val. Here we describe two novel regulatory functions of wild-type hER that are hormone independent: (i) a constitutive activator function and (ii) a repressor activity. Mutations in the hormone-binding domain, including the Val400 mutation, impair both of these functions. In addition, DNA binding is strongly reduced in the mutant receptors. The hormone-binding domain of the hER thus controls DNA binding (and thereby the repressor function) of the hER as well as its constitutive activator function. Moreover, we find that the antiestrogen tamoxifen restores the constitutive activator function, the DNA binding, and the repressor function of the Val400 mutant, but has no effect on the constitutive activator function or DNA binding of the wild-type hER.     

CrkL is a co-activator of estrogen receptor alpha that enhances tumorigenic potential in cancer

Signaling via estrogen receptor (ER) occurs by interacting with many proteins. Nuclear interactome analysis of ERα in an embryo implantation model revealed the association of chicken tumor virus no. 10 regulator of kinase like (CrkL) with ERα, which was further validated by mammalian two-hybrid assay as well as coimmunoprecipitation and colocalization. Mutation in LPALL motif of CrkL disrupts the ERα-CrkL interaction and its transactivation potential, thereby suggesting that the interaction is mediated via its single ER binding motif, Leu-Pro-Ala-Leu-Leu (LXXLL) motif in the sarcoma homology (SH)2 domain. CrkL deletion constructs of SH2 domain target to the nucleus due to presence of nuclear localization signal. Interestingly, the SH2-SH3 (N terminal) construct shows an increased transactivation potential like CrkI. Weak interaction capability of mutated ERα-Y538F with CrkL validates that CrkL interacts with ERα via its YDLL motif at Tyr 541. In an attempt to understand the physiological relevance of this association, we investigated the impact on cell proliferation using a cancer model, because events associated in the process of pregnancy and cancer are analogous. Also, overexpression of CrkL is frequently associated with tumorigenesis. However, its significance in hormone-regulated cancers still remains obscure. Here, we demonstrate that association of ERα and CrkL directly enhances the tumorigenic potential of CrkL, thus pointing to its role in cell proliferation. In human endometrial cancers, we observed a strong association between ERα and CrkL levels. Thus, the molecular signaling set off by ERα and CrkL association may have a central role in pregnancy and cancer, two events which share parallels in growth, invasion, and immune tolerance.