ASIC1a oligomerization structure-function of its extracellular vestibule and functional characterization of αS243Pβɣ ENaC

Quatre cristaux du canal ASIC1a ont été publiés et soutiennent une stoechiométrie trimérique. Cependant, ces données contredisant de précédentes analyses fonctionnelles effectuées sur des canaux de la même famille, notre intérêt fut porté sur l'oligomérisation d'ASIC1a. Dans ce sens, un nouvel essai couplant la méthode d'analyse par substitution de cystéines (SCAM) avec l'utilisation de réactifs sulfhydryls bifonctionnels (crosslinkers) a été mis en place. Le but étant de stabiliser, puis sélectionner les canaux fonctionnels, pour ensuite les séparer selon leur taille par SDS-PAGE. Grâce à cette technique, nous avons démontré que le complexe stabilisé a une taille coïncidant avec une organisation tétramérique. En plus de son oligomérisation, le chemin emprunté par les ions pour traverser le canal n'est pas clairement défini dans ces structures. De ce fait, utilisant une approche électrophysiologique, nous avons étudié le lien entre la structure et la fonction du vestibule extracellulaire d'ASIC1a. Dans ce but, nous nous sommes intéressés l'accessibilité de cystéines spécifiques localisées dans ce vestibule pour des réactifs méthanethiosulfonates (MTS). Ainsi, nous avons pu corréler les cinétiques de modification de ces cystéines par les MTS avec les effets sur le courant sodique, et donc avoir des informations supplémentaires sur la voie empruntée par les ions. De plus, la simulation informatique de liaison de ces réactifs illustre le remplissage total de ce vestibule. Fonctionnellement, cette interaction ne perturbe pas le passage de ions, c'est pourquoi il nous apparaît probable que le vestibule présente une taille plus large que celle illustrée par les cristaux. Dans un deuxième temps, notre intérêt fut porté sur ENaC. Ce canal est composé des trois sous-unités (a, ß et y) et est exprimé dans divers épithéliums, dont les tubules des reins. Il participe à l'homéostasie sodique et est essentiellement régulé par voie hormonale via l'aldostérone et la Vasopressine, mais également par des sérines protéases ou le Na+. Nous avons étudié la répercussion fonctionnelle de la mutation aS243P, découverte chez un nouveau-né prématuré atteint de pseudohypoaldostéronisme de type 1. Cette maladie autosomale récessive se caractérise, généralement, par une hyponatrémie liée à d'importantes pertes de sel dans les urines, une hyperkaliémie, ainsi qu'un niveau élevé d'aldostérone. Tout d'abord aucune des expériences biochimiques et électrophysiologiques n'a pu démontrer un défaut d'expression ou une forte diminution de l'activité soutenant les données cliniques. Cependant, en challengeant aS243PßyENaC avec une forte concentration de Na+ externe, une hypersensibilité de canal fut observée. En effet, ni les phénomènes régulateurs de « feedback inhibition » ou de « Na+ self-inhibition » n'étaient semblables au canal sauvage. De ce fait, ils apparaissaient exacerbés en présence de la mutation, amenant ainsi à une diminution de la réabsorption de Na+. Ceci corrobore entièrement l'hyponatrémie diagnostiquée. Le rein d'un prématuré étant immature, la quantité de Na+ atteignant la partie distale du néphron est plus élevée, du fait que les autres mécanismes de réabsorption en amont ne sont probablement pas encore en place. Cette hypothèse est renforcée par l'existence d'un frère présentant la même mutation, mais qui, né à terme, ne présentait aucun signe d'hyponatrémie. - The main topic of my thesis is the structure-function relationship of the ENaC/Deg family of ion channels, namely the Acid-Sensing Ion Channel ASIC1a and the Epithelial Na Channel ENaC. The primary part of this research is dedicated to the structure of ASIC1a. Four channel crystals have been published, which support a trimeric stoichiometry, although these data contradict previous functional experiments on other ENaC/Deg members. We are therefore interested in ASIC1a oligomerization and have set up a new assay combining the Substituted- Cysteine Accessibility Method (SCAM) with Afunctional sulfhydryl reagents (crosslinkers) allowing its study. The aim was to first stabilize the channels, then select those that are functional and then resolve them according to their size on SDS-PAGE. We demonstrated that the stabilized complex has a molecular weight corresponding to a tetrameric stoichiometry. In addition to our interest in the oligomerization of the ENaC/Deg family of ion channels, we also wanted to investigate the thus far undefined way of permeation for these channels. Therefore, taking the advantage of a more electrophysiological approach, we studied the accessibility of specific cysteines for methanethiosulfonate reagents (MTS) and were able to correlate the MTS association kinetics on cysteine residues with Na+ currents. These results have given us an insight into ion permeation and our functional evidence indicates that the extracellular is larger than that depicted by the crystal structures. As a side project, we focused on ENaC, which is made up of three subunits (a, ß and y) and is expressed in various epithelia, especially in the distal nephron of the kidneys. It plays a role in Na+ homeostasis and is essentially regulated by hormones via aldosterone and vasopressin, but also by serine proteases or Na+. We have studied the functional impact of the aS243P mutation, discovered in a premature baby suffering from pseudohypoaldosteronism of type 1. This autosomal recessive disease is characterized by hyponatremia, hyperkalemia and high aldosterone levels. Firstly, neither biochemical nor electrophysiological experiments indicated an expression defect or a strong decrease in activity. However, challenging aS243PßyENaC with increased external Na+ concentration showed channel hypersensitivity. Indeed, both the "feedback inhibition" and the "Na+ self-inhibition" regulatory mechanisms are impaired, leading to a decrease in Na+ reabsorption, entirely supports the diagnosis. The kidneys in preterm infants are immature and Na+ levels reaching the distal nephron are higher than normally observed. We hypothesize that the upstream reabsorption machinery is unlikely to be sufficiently matured and this assumption is supported by an asymptomatic sibling carrying the same mutation, but born at term. - La cellule, unité fonctionnelle du corps humain, est délimitée par une membrane plasmique servant de barrière biologique entre les milieux intra et extracellulaires. Une communication entre cellules est indispensable pour un fonctionnement adéquat. Sa survie dépend, entre autres, du maintien de la teneur en ions dans chacun des milieux qui doivent pouvoir être réabsorbés, ou sécrétés, selon les besoins. Les protéines insérées dans la membrane forment un canal et sont un moyen de communication permettant spécifiquement à des ions tel que le sodium (Na+) de traverser. Le Na+ se trouve dans la plupart des aliments et le sel, et est spécifiquement réabsorbé au niveau des reins grâce au canal sodique épithélial ENaC. Cette réabsorption se fait de l'urine primaire vers l'intérieur de la cellule, puis est transporté vers le sang. Pour maintenir un équilibre, une régulation de ce canal est nécessaire. En effet, des dysfonctionnements impliquant la régulation ou l'activité d'ENaC lui-même sont à l'origine de maladies telles que la mucoviscidose, l'hypertension ou encore, le pseudohypoaldostéronisme (PHA). Cette maladie est caractérisée, notamment, par d'importantes pertes de sel dans les urines. Des pédiatres ont diagnostiqué un PHA chez un nouveau-né, ce dernier présentant une modification du canal ENaC, nous avons recréé cette protéine afin d'étudier l'impact de ce changement sur son activité. Nous avons démontré que la régulation d'ENaC était effectivement perturbée, conduisant ainsi à une forte réduction de la réabsorption sodique. Afin de développer des molécules capables de moduler l'activité de protéines. Il est nécessaire d'en connaître la structure. Celle du canal sodique sensible à l'acidification ASIC1, un canal cousin d'ENaC, est connue. Ces données structurales contredisant cependant les analyses fonctionnelles, nous nous sommes penchés une nouvelle fois sur ASIC1. Une protéine est une macromolécule biologique composée d'une chaîne d'acides aminés (aa). De l'enchaînement d'aa à la protéine fonctionnelle, quatre niveaux de structuration existent. Chaque aa donne une indication quant au repliement et plus particulièrement la cystéine. Arborant un groupe sulfhydryle (SH) capable de former une liaison spécifique et stable avec un autre SH, celle-ci est souvent impliquée dans la structure tridimensionnelle de la protéine. Ce type de liaison intervient également dans la stabilisation de la structure quaternaire, qui est l'association de plusieurs protéines identiques (homomère), ou pas (hétéromère). Dans cette partie, nous avons remplacé des aa par des cystéines à des endroits spécifiques. Le but était de stabiliser plusieurs homomères d'ASICl ensemble avec des réactifs créant des ponts entre deux SH. Ainsi, nous avons pu déterminer le nombre de protéines ASIC1 participant à la formation d'un canal fonctionnel. Nos résultats corroborent les données fonctionnelles soutenant un canal tétramérique. Nous avons également étudié l'accessibilité de ces nouvelles cystéines afin d'obtenir des informations supplémentaires sur la structure du chemin emprunté par le Na+ à travers ASIC1 et plus particulièrement du vestibule extracellulaire.

Use of an in-house approach to study the three-dimensional structures of various outer membrane proteins: structure of the alcaligin outer membrane transporter FauA from Bordetella pertussis.

Bordetella pertussis is the bacterial agent of whooping cough in humans. Under iron-limiting conditions, it produces the siderophore alcaligin. Released to the extracellular environment, alcaligin chelates iron, which is then taken up as a ferric alcaligin complex via the FauA outer membrane transporter. FauA belongs to a family of TonB-dependent outer membrane transporters that function using energy derived from the proton motive force. Using an in-house protocol for membrane-protein expression, purification and crystallization, FauA was crystallized in its apo form together with three other TonB-dependent transporters from different organisms. Here, the protocol used to study FauA is described and its three-dimensional structure determined at 2.3 A resolution is discussed.

Direct visualization of the trimeric structure of the ASIC1a channel, using AFM imaging.

There has been confusion about the subunit stoichiometry of the degenerin family of ion channels. Recently, a crystal structure of acid-sensing ion channel (ASIC) 1a revealed that it assembles as a trimer. Here, we used atomic force microscopy (AFM) to image unprocessed ASIC1a bound to mica. We detected a mixture of subunit monomers, dimers and trimers. In some cases, triple-subunit clusters were clearly visible, confirming the trimeric structure of the channel, and indicating that the trimer sometimes disaggregated after adhesion to the mica surface. This AFM-based technique will now enable us to determine the subunit arrangement within heteromeric ASICs.

Identification of potential small molecule binding pockets on Rho family GTPases

Rho GTPases are conformational switches that control a wide variety of signaling pathways critical for eukaryotic cell development and proliferation. They represent attractive targets for drug design as their aberrant function and deregulated activity is associated with many human diseases including cancer. Extensive high-resolution structures (.100) and recent mutagenesis studies have laid the foundation for the design of new structure-based chemotherapeutic strategies. Although the inhibition of Rho signaling with drug-like compounds is an active area of current research, very little attention has been devoted to directly inhibiting Rho by targeting potential allosteric non-nucleotide binding sites. By avoiding the nucleotide binding site, compounds may minimize the potential for undesirable off-target interactions with other ubiquitous GTP and ATP binding proteins. Here we describe the application of molecular dynamics simulations, principal component analysis, sequence conservation analysis, and ensemble small-molecule fragment mapping to provide an extensive mapping of potential small-molecule binding pockets on Rho family members. Characterized sites include novel pockets in the vicinity of the conformationaly responsive switch regions as well as distal sites that appear to be related to the conformations of the nucleotide binding region. Furthermore the use of accelerated molecular dynamics simulation, an advanced sampling method that extends the accessible time-scale of conventional simulations, is found to enhance the characterization of novel binding sites when conformational changes are important for the protein mechanism.

How does ownership structure invfluence bank risk? Analyzing the role of managerial incentives

This paper analyzes how ownership concentration and managerial incentives influences bank risk for a large sample of US banks over the period 1997-2007. Using 2SLS simultaneous equations models, we show that ownership concentration has a positive total effect on bank risk. This is the result of a positive direct effect, which reflects monitoring and opportunistic behavior, and a negative indirect effect, which works through the design of managerial incentive contracts and reflects shareholder preferences toward risk. Large shareholders reduce bank risk by reducing the sensitivity of CEO wealth to stock volatility (Vega) and by increasing the CEO pay-performance sensitivity (Delta). In addition, we show that the direct and indirect effect of ownership concentration on bank risk depends on the type of the largest shareholder (a family, a bank, a corporation or an institutional investor), as well as, on the total shareholding held by each type as a group. Our results suggest that the positive relation between ownership concentration and risk is not the result of preferences towards more risk. Rather, they point at opportunistic behavior of large shareholders.

The evolutionary history of the CD209 (DC-SIGN) family in humans and non-human primates

The CD209 gene family that encodes C-type lectins in primates includes CD209 (DC-SIGN), CD209L (L-SIGN) and CD209L2. Understanding the evolution of these genes can help understand the duplication events generating this family, the process leading to the repeated neck region and identify protein domains under selective pressure. We compiled sequences from 14 primates representing 40 million years of evolution and from three non-primate mammal species. Phylogenetic analyses used Bayesian inference, and nucleotide substitutional patterns were assessed by codon-based maximum likelihood. Analyses suggest that CD209 genes emerged from a first duplication event in the common ancestor of anthropoids, yielding CD209L2 and an ancestral CD209 gene, which, in turn, duplicated in the common Old World primate ancestor, giving rise to CD209L and CD209. K(A)/K(S) values averaged over the entire tree were 0.43 (CD209), 0.52 (CD209L) and 0.35 (CD209L2), consistent with overall signatures of purifying selection. We also assessed the Toll-like receptor (TLR) gene family, which shares with CD209 genes a common profile of evolutionary constraint. The general feature of purifying selection of CD209 genes, despite an apparent redundancy (gene absence and gene loss), may reflect the need to faithfully recognize a multiplicity of pathogen motifs, commensals and a number of self-antigens

Revisiting the heteromultimeric structure of ENaC in Xenopus leavis oocytes

The epithelial sodium channel (ENaC) regulates the sodium reabsorption in the principal cells of collecting duct of the nephron, and is essential for the maintenance of Na+ balance and blood pressure. ENaC is regulated by hormones such as aldosterone and vasopressin, by serine proteases. The functional ENaC channel expressed at the cell surface is a hetemultimeric complex composed by the homologous a, ß and y subunits. Several functional and biochemical studies have provided evidence that the ENaC is a heterotetramer formed by 2a lß and ly subunits. Recently, a channel homologue of ENaC, the acid-sensing ion channel ASIC1 has been crystallized as a homotrimer. This discrepancy in the subunit composition of these two channels of the same family, motivated us to revisit the subunit oligomerization of the purified functional abg EnaC channel complex. His(6)ENaC a ß y subunits were expressed in Xenopus leavis oocytes. The three ENaC subunits copurify on Ni+2-NTA agarose beads in a aßy ENaC complex. On Western blot, the ENaC subunits show typical post-translation modifications associated with a functional channel. Using differentially tagged ENaC subunits, we could demonstrate that 2 different a ENaC co- purify with ß and y subunits, whereas only one single ß and y are detected in the ENaC complex. Comparison of the mass of the aßy ENaC complex on Western blot under non reducing conditions with different ENaC dimeric, trimmeric and tetratemeric concatamers indicate that the ENaC channel complex is a heterotetramer made of 2a-, lß-, and ly ENaC subunits. Our result will certainly not provide the last words on the subunit stoichiometry of the ENaC/ASIC channels, but hopefully will promote the réévaluation of the cASICl crystal structure for its functional relevance. -- Le canal épithélial sodique ENaC est responsable de la réabsorption du sodium dans les cellules principales du tubule collecteur rénal et joue un rôle important dans le maintien de l'homéostasie sodique et le maintien de la pression artérielle. Ce canal est régulé par des hormones telles que l'aldostérone ou la Vasopressine mais également par des sérines protéases. ENaC est un canal multimerique constitué des trois sous-unités homologues a, ß and y. De nombreuses études fonctionnelles et biochimiques ont montré que le canal ENaC fonctionnel exprimé à la surface cellulaire est un canal formé de 4 sous unités avec une stoichiometric préférentielle de 2 sous-unités a, 1 sous-unité ß et 1 sous-unité y. Récemment, la cristallisation du canal sodique sensible au pH acide, ASIC, un autre membre de la famille ENaC/Deg, a mis en évidence un canal homotrimérique. Cette divergence dans la composition en sous-unités formant les complexes ENaC et ASIC, deux canaux de la même famille de gènes, nous a motivé à réinvestiguer le problème de l'oligomérisation du complexe fonctionnel ENaC après purification. Dans ce but le complexe ENaC fait des sous-unités aßy marquées par un épitope His 6 ont été exprimées dans l'ovocyte de Xenopus leavis. Les trois sous-unités aßy du complexe ENaC peuvent être co-purifiées sur des billes d'agarose Ni+2-NTA et montrent les modifications post-traductionnelles attendues pour le complexe fonctionnel ENaC exprimé en surface. Nous avons pu démontrer que ce complexe ENaC fonctionnel, est formé de deux sous-unités a différentes, mais de une seule sous-unité ß et une seule sous-unité y, suggérant un complexe ENaC formé de plus de trois sous-unités. L'estimation de la masse du complexe fonctionnel ENaC par Western blot, en comparaison avec des constructions concatemériques de ENaC faites de 2, 3, ou 4 sous-unités indique que le complexe aßy ENaC fonctionnel est une hétérotétramère composé de 2 sous-unités a, une ß et une y. Ces expériences ne représentent pas le fin d'une controverse quant à la structure des canaux ENaC et ASIC, mais soulèvent la question de la relevance fonctionnelle de la structure tridimentionelle du canal ASIC révélée par crystallographie.

Family Kungalariidae, n. fam., new Mesozoic entactinarian Radiolaria with a nassellarian-type initial spicule

Based on internal structure, a new family of entactinarian radiolarians, the Kungalariidae, is described with three new genera and four species: Kungalaria newcombi, Cachecreekaria californiensis, Transylvanaria devaensis, and T. hattorii. Members of this family have an eccentric internal, nassellarian-type initial spicule with bar MB, rays A, V, L, I, and spine Ax; a medullary shell built above the plane of lateral rays as in the cephalis of many nassellarians; and a spherical to subspherical cortical shell around the medullary shell. This new family is part of a group of Triassic entactinarians structurally intermediate between Entactinaria, or spicule-bearing Spumellaria, and Nassellaria. The new genera and species described occur in the Rhaetian of Queen Charlotte Islands, British Columbia, Aalenian to early-mid Bajocian of central Japan, Cenomanian of California, and Coniacian of Romania.

Secreted subtilisin gene family in Trichophyton rubrum.

Secreted proteases constitute potential virulence factors of dermatophytes. A total of seven genes encoding putative serine proteases of the subtilisin family (SUB) were isolated in Trichophyton rubrum. Based on sequence data and intron-exon structure, a phylogenetic analysis of subtilisins from T. rubrum and other fungi revealed a presumed ancestral lineage comprising T. rubrum SUB2 and Aspergillus SUBs. All other SUBs (SUB1, SUB3-7) are dermatophyte-specific and have apparently emerged more recently, through successive gene duplication events. We showed that two subtilisins, Sub3 and Sub4, were detected in culture supernatants of T. rubrum grown in a medium containing soy protein as a sole nitrogen source. Both recombinant enzymes produced in Pichia pastoris are highly active on keratin azure suggesting that these proteases play an important role in invasion of keratinised tissues by the fungus. The set of deduced amino acid sequences of T. rubrum SUB ORFs allowed the identification of orthologous Subs secreted by other dermatophyte species using proteolysis and mass spectrometry.

Child hearing health: practice of the Family Health Strategy nurses

Objective Evaluating the practice of nurses of the Family Health Strategy (FHS) in child hearing health care. Method A normative assessment of structure and process, with 37 nurses in the Family Health Units, in the city of Recife, Pernambuco. The data collection instrument originated from the logical model of child hearing health care provided by nurses of the Family Health Strategy, and the matrix of indicators for evaluation of nursing practice. Results All the nurses identified the hearing developmental milestones. At least two risk factors were identified by 94.5% of the nurses, and 21.6% of them carried out educational activities. Conclusion The normative assessment was considered adequate despite existing limitations in the structure and process.


MEDICAL STUDENT IN THE FAMILY HEALTH STRATEGY ON THE FIRST YEARS OF COLLEGE: PERCEPTION OF GRADUATES

There is a lack of knowledge about the effective value of the experience gained by medical students who participate in the Family Health Strategy (Estratégia Saúde da Família (ESF)) during the early stages of their medical training. This teaching strategy is based on learning by experiencing the problems that exist in real life. This study proposed to understand the value of this teaching strategy from the viewpoint of the students who had participated, after their graduation. The method adopted was a qualitative study conducted through interviews with students who graduated in the years 2009, 2010 and 2011. The data analysis used the hermeneutic dialectic technique as its model. The graduates considered that this experience enabled them to understand the organization and functioning of the health service and the context of the daily life of the users. This experience facilitated the doctor patient relationship, the development of clinical reasoning and the bond with the user. However the students emphasized that a lack of maturity prevented them gaining a higher level of benefit from the experience. Therefore, although the structure of the course is permeated by advances and challenges, it was concluded that this experience contributed to the student's learning of certain essential elements of medical training.

Family dynamics in face of Alzheimer's in one of its members

Abstract OBJECTIVE To understand the family dynamics when there is a member in the residence with Alzheimer's disease. METHOD A study of qualitative approach, using the creative sensitive method (CSM), and with participation of two families who had a member with Alzheimer's disease at home. RESULTS Three categories emerged: Effects of Alzheimer's disease and the family dynamics; Development process of Alzheimer's disease and Coping strategies in face of the disease. CONCLUSION It was possible to know the manifestations and consequences of Alzheimer's disease in the family, such as mutual help, the mobilization of resources to activate memories of the past, spirituality and faith. There was also understanding of the structure of family dynamics.

Mutations leading to X-linked hypohidrotic ectodermal dysplasia affect three major functional domains in the tumor necrosis factor family member ectodysplasin-A.

Mutations in the epithelial morphogen ectodysplasin-A (EDA), a member of the tumor necrosis factor (TNF) family, are responsible for the human disorder X-linked hypohidrotic ectodermal dysplasia (XLHED) characterized by impaired development of hair, eccrine sweat glands, and teeth. EDA-A1 and EDA-A2 are two splice variants of EDA, which bind distinct EDA-A1 and X-linked EDA-A2 receptors. We identified a series of novel EDA mutations in families with XLHED, allowing the identification of the following three functionally important regions in EDA: a C-terminal TNF homology domain, a collagen domain, and a furin protease recognition sequence. Mutations in the TNF homology domain impair binding of both splice variants to their receptors. Mutations in the collagen domain can inhibit multimerization of the TNF homology region, whereas those in the consensus furin recognition sequence prevent proteolytic cleavage of EDA. Finally, a mutation affecting an intron splice donor site is predicted to eliminate specifically the EDA-A1 but not the EDA-A2 splice variant. Thus a proteolytically processed, oligomeric form of EDA-A1 is required in vivo for proper morphogenesis.

A member of the PLEIOTROPIC DRUG RESISTANCE family of ATP binding cassette transporters is required for the formation of a functional cuticle in Arabidopsis.

Although the multilayered structure of the plant cuticle was discovered many years ago, the molecular basis of its formation and the functional relevance of the layers are not understood. Here, we present the permeable cuticle1 (pec1) mutant of Arabidopsis thaliana, which displays features associated with a highly permeable cuticle in several organs. In pec1 flowers, typical cutin monomers, such as ω-hydroxylated fatty acids and 10,16-dihydroxypalmitate, are reduced to 40% of wild-type levels and are accompanied by the appearance of lipidic inclusions within the epidermal cell. The cuticular layer of the cell wall, rather than the cuticle proper, is structurally altered in pec1 petals. Therefore, a significant role for the formation of the diffusion barrier in petals can be attributed to this layer. Thus, pec1 defines a new class of mutants. The phenotypes of the pec1 mutant are caused by the knockout of ATP BINDING CASSETTEG32 (ABCG32), an ABC transporter from the PLEIOTROPIC DRUG RESISTANCE family that is localized at the plasma membrane of epidermal cells in a polar manner toward the surface of the organs. Our results suggest that ABCG32 is involved in the formation of the cuticular layer of the cell wall, most likely by exporting particular cutin precursors from the epidermal cell.

A scaled difference chi-square test statistic for moment structure analysis

A family of scaling corrections aimed to improve the chi-square approximation of goodness-of-fit test statistics in small samples, large models, and nonnormal data was proposed in Satorra and Bentler (1994). For structural equations models, Satorra-Bentler's (SB) scaling corrections are available in standard computer software. Often, however, the interest is not on the overall fit of a model, but on a test of the restrictions that a null model say ${\cal M}_0$ implies on a less restricted one ${\cal M}_1$. If $T_0$ and $T_1$ denote the goodness-of-fit test statistics associated to ${\cal M}_0$ and ${\cal M}_1$, respectively, then typically the difference $T_d = T_0 - T_1$ is used as a chi-square test statistic with degrees of freedom equal to the difference on the number of independent parameters estimated under the models ${\cal M}_0$ and ${\cal M}_1$. As in the case of the goodness-of-fit test, it is of interest to scale the statistic $T_d$ in order to improve its chi-square approximation in realistic, i.e., nonasymptotic and nonnormal, applications. In a recent paper, Satorra (1999) shows that the difference between two Satorra-Bentler scaled test statistics for overall model fit does not yield the correct SB scaled difference test statistic. Satorra developed an expression that permits scaling the difference test statistic, but his formula has some practical limitations, since it requires heavy computations that are notavailable in standard computer software. The purpose of the present paper is to provide an easy way to compute the scaled difference chi-square statistic from the scaled goodness-of-fit test statistics of models ${\cal M}_0$ and ${\cal M}_1$. A Monte Carlo study is provided to illustrate the performance of the competing statistics.