Therapeutic advances in the management of Huntington's disease

Trinucleotide repeat disorders are a set of genetic disorders characterized by the expansion of certain genes of a segment of DNA that contains a repeat of three nucleotides, thus exceeding the normal stable threshold. These repeats in the DNA cause repeats of a specific amino acid in the protein sequence, and it is the repeated amino acid that results in a defective protein. Huntington's disease is a well-known genetic disorder associated with trinucleotide repeat expansions. Patients first present clinically in midlife and manifest a typical phenotype of sporadic, rapid, and involuntary control of limb movement; stiffness of limbs; impaired cognition; severe psychiatric disturbances; and ultimately, death. There have been a number of therapeutic advances in the treatment of Huntington's disease, such as foetal neural transplantation, RNA interference, and transglutaminase inhibitor. Although there is intensive research into Huntington's disease and recent findings seem promising, effective therapeutic strategies may not be developed until the next few decades.     

泛素样蛋白UBQLN2通过抑制结肠癌Wnt信号通路发挥抑癌作用

结肠癌是一种危害人类健康的消化道肿瘤,结肠癌复杂的发病机制导致患者治疗效果不佳。泛素样蛋白质2(ubiquilin,UBQLN2)是泛素样蛋白质家族成员之一,参与调控细胞内蛋白质泛素化降解、内质网应激和溶酶体稳态,但是,其在结肠癌中的作用和机制目前尚不清楚。本研究旨在分析UBQLN2在结肠癌中的作用及其与经典促癌Wnt信号通路之间的关系。免疫组化和Western 印迹分析结果显示,UBQLN2在结肠癌组织和细胞中表达下调(P<0.05),UBQLN2与结肠癌转移以及临床分期呈显著负相关关系(P<0.05)。CCK-8和流式细胞术检测结果显示,抑制UBQLN2可促进结肠癌细胞增殖,抑制细胞凋亡(P<0.05)。免疫荧光和Western印迹结果显示,抑制UBQLN2可促进Bcl-2,抑制Bax表达,激活Wnt信号通路(P<0.05)。综上所述,泛素样蛋白UBQLN2通过抑制结肠癌细胞Wnt信号通路发挥抑癌作用。     

Identification of ubiquilin, a novel presenilin interactor that increases presenilin protein accumulation

Mutations in the highly homologous presenilin genes encoding presenilin-1 and presenilin-2 (PS1 and PS2) are linked to early-onset Alzheimer's disease (AD). However, apart from a role in early development, neither the normal function of the presenilins nor the mechanisms by which mutant proteins cause AD are well understood. We describe here the properties of a novel human interactor of the presenilins named ubiquilin. Yeast two-hybrid (Y2H) interaction, glutathione S-transferase pull-down experiments, and colocalization of the proteins expressed in vivo, together with coimmunoprecipitation and cell fractionation studies, provide compelling evidence that ubiquilin interacts with both PS1 and PS2. Ubiquilin is noteworthy since it contains multiple ubiquitin-related domains typically thought to be involved in targeting proteins for degradation. However, we show that ubiquilin promotes presenilin protein accumulation. Pulse-labeling experiments indicate that ubiquilin facilitates increased presenilin synthesis without substantially changing presenilin protein half-life. Immunohistochemistry of human brain tissue with ubiquilin-specific antibodies revealed prominent staining of neurons. Moreover, the anti-ubiquilin antibodies robustly stained neurofibrillary tangles and Lewy bodies in AD and Parkinson's disease affected brains, respectively. Our results indicate that ubiquilin may be an important modulator of presenilin protein accumulation and that ubiquilin protein is associated with neuropathological neurofibrillary tangles and Lewy body inclusions in diseased brain.     

PLIC proteins or ubiquilins regulate autophagy‐dependent cell survival during nutrient starvation

Ubiquilins (UBQLNs) are adaptor proteins thought to deliver ubiquitinated substrates to proteasomes. Here, we show a role for UBQLN in autophagy: enforced expression of UBQLN protects cells from starvation‐induced death, whereas depletion of UBQLN renders cells more susceptible. The UBQLN protective effect requires the autophagy‐related genes ATG5 and ATG7, two essential components of autophagy. The ubiquitin‐associated domain of UBQLN mediates both its association with autophagosomes and its protective effect against starvation. Depletion of UBQLN delays the delivery of autophagosomes to lysosomes. This study identifies a new role for UBQLN in regulating the maturation of autophagy, expanding the involvement of ubiquitin‐related proteins in this process.     

Ubiquilin 1 interacts with Orai1 to regulate calcium mobilization

Store-operated calcium entry (SOCE) channels composed of Stim and Orai proteins play a critical role in diverse biological processes. Upon endoplasmic reticulum (ER)-mediated calcium (Ca²⁺) depletion, Stim proteins oligomerize with Orai to initiate Ca²⁺ influx across the plasma membrane. The ubiquitin-like (UBL) and ubiquitin-associated (UBA) domains of ubiquilin 1 are involved in the degradation of presenilin and polyglutamine proteins. Through screening of Orai1 interaction partner(s) that might have an effect on SOCE, ubiquilin 1 was identified as a target of Orai1. However, the UBL and UBA domains of ubiquilin 1 were dispensable for this interaction. Additionally, ubiquilin 1 and Orai1 colocalized in the cytosolic compartment. Ubiquilin 1 increased the ubiquitination of Orai1, resulting in the formation of a high-molecular-weight form. MG132, a proteasome inhibitor, failed to block the degradation of Orai1, whereas bafilomycin A, a lysosome inhibitor, prevented Orai1 degradation. Confocal microscopy studies demonstrated that a fraction of Orai1 colocalized with ubiquilin 1 and the autophagosomal marker LC3. Because Orai1 is a constituent of SOCE, we determined the effect of ubiquilin 1 on Orai1-mediated Ca²⁺ influx. As we expected, intracellular Ca²⁺ mobilization, a process normally potentiated by Orai1, was downregulated by ubiquilin 1. Taken together, these findings suggest that ubiquilin 1 downregulates intracellular Ca²⁺ mobilization and its downstream signaling by promoting the ubiquitination and lysosomal degradation of Orai1.     

The validation of housekeeping genes as a reference in quantitative Real Time PCR analysis : Application in the milk somatic cells and frozen whole blood of goats infected with caprine arthritis encephalitis virus

The validation of housekeeping genes (HKGs) for normalization of RNA expression in Real-Time PCR is crucial to obtain the most reliable results. There is limited information on reference genes used in the study of gene expression in milk somatic cells and the frozen whole blood of goats. Thus, the aim of this study was to propose the most stable housekeeping genes that can be used as a reference in Real-Time PCR analysis of milk somatic cells and whole blood of goats infected with caprine arthritis encephalitis virus (CAEV). Animals were divided into two groups: non-infected (N = 13) and infected with CAEV (N = 13). Biological material (milk somatic cells and whole blood) was collected 4 times during the lactation period (7, 30, 100 and 240 days post-partum). The expression levels of candidate reference genes were analyzed using geNorm and NormFinder software. The stability of candidates for reference gene expression was analyzed for CAEV-free (control) and CAEV-infected groups, and also for both groups together (combined group). The stability of expression of β-actin (ACTB), glyceraldehyde-3P-dehydrogenase (GAPDH), cyclophilin A (PPIA), RNA18S1, ubiquilin (UBQLN1) and ribosomal protein large subunit P0 (RPLP0) was determined in milk somatic cells, while ACTB, PPIA, RPLP0, succinate dehydrogenase complex subunit A (SDHA), zeta polypeptide (YWHAZ), battenin (CLN3), eukaryotic translation initiation factor 3K (EIF3K) and TATA box-binding protein (TBP) were measured in frozen whole blood of goats. PPIA and RPLP0 were considered as the most suitable internal controls as they were stably expressed in milk somatic cells regardless of disease status, according to NormFinder software. Furthermore, geNorm results indicated the expression of PPIA/RPLP0 genes as the best combination under these experimental conditions. The results of frozen whole blood analysis using NormFinder software revealed that the most stable reference gene in control, CAEV-infected and combined groups is YWHAZ, and – according to the geNorm results – the combined expression of PPM/YWHAZ genes is the best reference in the presented experiment. The usefulness in gene expression analysis of whole blood samples frozen immediately in liquid nitrogen and stored at -80 °C was also proved.