APC Inhibits Ligand-Independent Wnt Signaling by the Clathrin Endocytic Pathway

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Nobiletin protects against insulin resistance and disorders of lipid metabolism by reprogramming of circadian clock in hepatocytes

Scope

Circadian clock plays a principal role in orchestrating our daily physiology and metabolism, and their perturbation can evoke metabolic diseases such as fatty liver and insulin resistance. Nobiletin (NOB) has been demonstrated to possess antitumor and neuroprotective activities. The objective of the current study is to determine potential effects of NOB on modulating the core clock gene Bmal1 regarding ameliorating glucolipid metabolic disorders.

Cultural,morphological and bio-chemical variability of different isolates of Colletotrichum truncatum causing anthracnose of greengram

A laboratory experiment was conducted to study the variability among the eight isolates of Colletotrichum truncatum of greengram collected from different locations on the basis of cultural, morphological and biochemical characteristics by using nine different culture media viz., Potato Dextrose Agar (PDA), Potato Carrot Agar (PCA), Oat Meal Agar (OMA), Corn Meal Agar (CMA), Carrot Agar (CA), Sabouraud’s Agar (SA), Czapek’s Dox Agar (CDA), Richard’s Agar (RA) and V₈ Juice Agar. Colony colour varied in different media from white or white with light brown centres which later changed to black or dark to light brown with increase in the age of the fungal cultures. Mostly, the colonies had fluffy or cottony mycelial growth with slight variations and regular to irregular white margin. PDA, PCA, CA and RA produced maximum mycelial growth (90?mm) at 10 DAI (days after inoculation). Minimum growth was observed on SA (69.56?mm) and V₈ juice agar media (55.42?mm) and their difference was statistically significant. Morphological variability among the isolates was studied by comparing their conidial length, breadth and length and breadth of setae and their differences were statistically significant. Biochemical variability among the isolates was based on α- and β-esterase and peroxidise profiling. Positive activity was observed for both α- and β-esterase. α-Esterase enzyme showed the highest enzyme activity in terms of maximum numbers of banding loci among the three isozymes tested. The findings of the present study clearly revealed that cultural, morphological and biochemical variability did exist among the different isolates of C. truncatum.     

The Casein kinase 1α agonist pyrvinium attenuates Wnt-mediated CK1α degradation via interaction with the E3 ubiquitin ligase component Cereblon

The Cullin-RING ligase 4 E3 ubiquitin ligase component Cereblon (CRBN) is a well-established target for a class of small molecules termed immunomodulatory drugs (IMiDs). These drugs drive CRBN to modulate the degradation of a number of neosubstrates required for the growth of multiple cancers. Whereas the mechanism underlying the activation of CRBN by IMiDs is well described, the normal physiological regulation of CRBN is poorly understood. We recently showed that CRBN is activated following exposure to Wnt ligands and subsequently mediates the degradation of a subset of physiological substrates. Among the Wnt-dependent substrates of CRBN is Casein kinase 1α (CK1α), a known negative regulator of Wnt signaling. Wnt-mediated degradation of CK1α occurs via its association with CRBN at a known IMiD binding pocket. Herein, we demonstrate that a small-molecule CK1α agonist, pyrvinium, directly prevents the Wnt-dependent interaction of CRBN with CK1α, attenuating the consequent CK1α degradation. We further show that pyrvinium disrupts the ability of CRBN to interact with CK1α at the IMiD binding pocket within the CRBN–CK1α complex. Of note, this function of pyrvinium is independent of its previously reported ability to enhance CK1α kinase activity. Furthermore, we also demonstrate that pyrvinium attenuates CRBN-induced Wnt pathway activation in vivo. Collectively, these results reveal a novel dual mechanism through which pyrvinium inhibits Wnt signaling by both attenuating the CRBN-mediated destabilization of CK1α and activating CK1α kinase activity.     

Alkaliphilic bacteria: applications in industrial biotechnology

Alkaliphiles are interesting groups of extremophilic organisms that thrive at pH of 9.0 and above. Many of their products, in particular enzymes, have found widespread applications in industry, primarily in the detergent and laundry industries. While the enzymes have been a runaway success from the industrial point of view, many more products have been reported from alkaliphiles such as antibiotics and carotenoids. Less known are their potential for degradation of xenobiotics. They also play a key role in biogeocycling of important inorganic compounds. This review provides an insight into the huge diversity of alkaliphilic bacteria, the varied products obtained from them, and the need for further investigations on these interesting bacteria.