The fusion of intracellular transport vesicles with their target membranes requires the assembly of SNARE proteins anchored in the apposed membranes. Here we use recombinant cytoplasmic domains of the yeast SNAREs involved in Golgi to plasma membrane trafficking to examine this assembly process in vitro. Binary complexes form between the target membrane SNAREs Sso1p and Sec9p; these binary complexes can subsequently bind to the vesicle SNARE Snc2p to form ternary complexes. Binary and ternary complex assembly are accompanied by large increases in alpha-helical structure, indicating that folding and complex formation are linked. Surprisingly, we find that binary complex formation is extremely slow, with a second-order rate constant of approximately 3 M(-1) s(-1). An N-terminal regulatory domain of Sso1p accounts for slow assembly, since in its absence complexes assemble 2,000-fold more rapidly. Once binary complexes form, ternary complex formation is rapid and is not affected by the presence of the regulatory domain. Our results imply that proteins that accelerate SNARE assembly in vivo act by relieving inhibition by this regulatory domain.
To fuse transport vesicles with target membranes, proteins of the SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptors) complex must be located on both the vesicle (v-SNARE) and the target membrane (t-SNARE). In yeast, four integral membrane proteins, Sed5, Bos1, Sec22 and Bet1 (refs 2-6), each probably contribute a single helix to form the SNARE complex that is needed for transport from endoplasmic reticulum to Golgi. This generates a four-helix bundle, which ultimately mediates the actual fusion event. Here we explore how the anchoring arrangement of the four helices affects their ability to mediate fusion. We reconstituted two populations of phospholipid bilayer vesicles, with the individual SNARE proteins distributed in all possible combinations between them. Of the eight non-redundant permutations of four subunits distributed over two vesicle populations, only one results in membrane fusion. Fusion only occurs when the v-SNARE Bet1 is on one membrane and the syntaxin heavy chain Sed5 and its two light chains, Bos1 and Sec22, are on the other membrane where they form a functional t-SNARE. Thus, each SNARE protein is topologically restricted by design to function either as a v-SNARE or as part of a t-SNARE complex.
Individuals with Arthrogryposis Multiplex Congenita (AMC) are born with multiple joint contractures in multiple body areas, typically manifested as clubfeet, extended or flexed knees and/or elbows, and internal shoulder rotation, and clasped hands.They require multiple surgeries as children, but there is little data that reports their aging and future quality of life (QOL). This study describes the relationship between AMC-related surgically-managed joints in childhood and adulthood, and QOL as adults. Participants (n = 83) from 14 countries completed an online questionnaire followed by a telephone/Skype interview as adults. Data points collected regarding total number of surgeries, affected joints, country of origin, sex, age, and SF-36's Physical Capacity Score (PCS) for QOL were analyzed using a beta regression model to explore which factors may potentially influence adult QOL. The average number of surgeries per participant was 9.8, with at least 50% performed during childhood. 78, 45, and 31% of participants had foot, knee, and hip surgeries, respectively. The model demonstrated that knee and/or shoulder surgeries were more likely to have a negative correlation with PCS; elbow surgery, however, showed a positive correlation, as elbow function may impact independent function. However, future expansion of this data set to a longitudinal registry would provide better ongoing surgery-specific data. K E Y W O R D S adults, Arthrogryposis, quality of life, surgery
Plasma levels of the delta5-pregnenes, pregenolone and 17-OH-pregnenolone, were measured in patients with disordered steroidogenesis. While 17-OH-pregnenolone was within the normal range in patients with hypercortisolemia due to Cushing's disease, ectopic ACTH or adrenal adenrenal adenoma, 4 of 6 patients with an adrenal carcinoma had elevated levels of this precursor. Thus, elevated plasma 17-OH-pregnenolone levels in patients with Cushing's syndrome indicate adrenal carcinoma, although a normal value does not exclude this diagnosis. Abnormal resistance of delta5-pregnenes to suppression with dexamethasone proved useful in detecting the presence of residual tumor in the post-operative evaluation of adrenal carcinoma. Basal plasma pregnenolone was within the normal range in 19 of 20 patients with Cushing's disease and was invariably normal in patients with other varieties of hypercortisolism. Since acute administration of ACTH causes marked elevation of delta5-pregnene levels while patients with chronic ACTH excess (Cushing's disease and ectopic ACTH production) have normal levels, it is suggested that ACTH has a chronic influence on the intraadrenal utilization of delta5-pregnenes in addition to stimulating their formation. In pre-menopausal women with idiopathic hirsutism, basal levels of both delta5-pregnenes were elevated (P less than 0.001). Following dexamethasone administration the absolute decrease in delta5-pregnenes levels was greater than that seen in normal subjects. This observation indicates that the metabolism of delta5-pregnenes is abnormal in patients with idiopathic hirsutism.
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