Evidence that U5 snRNP recognizes the 3' splice site for catalytic step II in mammals

The first AG dinucleotide downstream from the branchpoint sequence (BPS) is chosen as the 3' splice site during catalytic step II of the splicing reaction. The mechanism and factors involved in selection of this AG are not known. Early in mammalian spliceosome assembly, U2AF65 binds to the pyrimidine tract between the BPS and AG. Here we show that U2AF65 crosslinking is replaced by crosslinking of three proteins of 110, 116 and 220 kDa prior to catalytic step II, and we provide evidence that all three proteins are components of U5 snRNP. These proteins interact with pre-mRNA in the region spanning from immediately downstream of U2 snRNP's binding site at the BPS to just beyond the 3' splice site. We also demonstrate that there are strict constraints on both the sequence and the distance between the BPS and AG for catalytic step II. Together, these observations suggest that U5 snRNP is positioned on the 3' splice site by an interaction (direct or indirect) with U2 snRNP bound at the BPS and by a direct interaction with the pyrimidine tract. The functional AG for catalytic step II may be specified, in turn, by its location with respect to the U5 snRNP binding site.

Evidence for altered proliferative ability of progenitors of urothelial cells in interstitial cystitis

Secondary cultures of basal urothelial cells isolated from patients with stress incontinence (7 patients), neurogenic bladder (2 patients), interstitial cystitis (IC) (27 patients), bladder rupture (1 patient) and bacterial cystitis (3 patients) grew under growth restricting conditions. All groups displayed reproducible colony size distribution, reflecting the proliferative potential distribution in the population of progenitor cells seeded. The percentage of large colonies (> 6 cells/colony), progeny of basal cells with high proliferative potential, was low in cultures from control patients with stress incontinence, neurogenic bladder or bladder rupture. Exposure of cultures from control patients with stress incontinence to lipoteichoic acid from Streptococcus faecalis, in vitro, increased the percentage of large colonies to levels statistically indistinguishable from those in untreated IC cultures. This supported the possibility that exposure of progenitors of urothelial cells to infection in vivo may cause the persistent increase in the percentage of large colonies in 80% of the IC patients tested. Given these findings, it was not surprising that the percentage of large colonies was also high in cultures from patients with acute bacterial cystitis. In conclusion, the present findings support the theoretical model for the etiology of IC we proposed based on our studies in normal urothelial cells (Elgavish et al., Journal of Cellular Physiology 169: 42-51, 52-65, 66-77, 1996): (1) The proliferative ability of a subpopulation of progenitors of urothelial cells is increased in IC; and (2) This change may be the result of recurrent exposure of progenitors of urothelial cells to injury due, possibly but not exclusively, to infection and chronic inflammation. We propose to use this change as a diagnostic tool for IC.

The splicing factor BBP interacts specifically with the pre-mRNA branchpoint sequence UACUAAC

The yeast splicing factor BBP (branchpoint bridging protein) interacts directly with pre-mRNA at or very near the highly conserved branchpoint sequence UACUAAC within the commitment complex. We also show that the recombinant protein recognizes the UACUAAC sequence. Therefore, BBP is also an acronym for branchpoint binding protein. The mammalian splicing factor SF1 is a BBP ortholog (mBBP) and an E complex component, and also has branchpoint sequence specificity. The relative conservation of this region in yeast and mammals correlates well with the RNA-binding differences between BBP and mBBP, suggesting that BBP contributes to branchpoint sequence definition in both systems.

Fluid resuscitation following a burn injury: implications of a mathematical model of microvascular exchange

A validated mathematical model of microvascular exchange in thermally injured humans has been used to predict the consequences of different forms of resuscitation and potential modes of action of pharmaceuticals on the distribution and transport of fluid and macromolecules in the body. Specially, for 10 and/or 50 per cent burn surface area injuries, predictions are presented for no resuscitation, resuscitation with the Parkland formula (a high fluid and low protein formulation) and resuscitation with the Evans formula (a low fluid and high protein formulation). As expected, Parkland formula resuscitation leads to interstitial accumulation of excess fluid, while use of the Evans formula leads to interstitial accumulation of excessive amounts of proteins. The hypothetical effects of pharmaceuticals on the transport barrier properties of the microvascular barrier and on the highly negative tissue pressure generated postburn in the injured tissue were also investigated. Simulations predict a relatively greater amelioration of the acute postburn edema through modulation of the postburn tissue pressure effects.

Association of U2 snRNP with the spliceosomal complex E

In metazoans, the E complex is operationally defined as an ATP-independent spliceosomal complex that elutes as a single peak on a gel filtration column and can be chased into spliced products in the presence of an excess of competitor pre-mRNA. The A complex is the first ATP-dependent functional spliceosomal complex. U1 snRNP first binds tightly to the 5'splice site in the E complex and U2 snRNP first binds tightly to the branch site in the A complex. In this study, we have generated and characterized a monoclonal antibody (mAb 4G8) directed against SAP 62, a component of U2 snRNP and a subunit of the essential mammalian splicing factor SF3a. We show that this antibody is highly specific for SAP 62, detecting only SAP 62 on Western blots and immunoprecipitating only SAP 62 from nuclear extracts. The anti-SAP 62 antibody also immunoprecipitates U2 snRNP and the A complex. Significantly, however, we find that the E complex is also efficiently immunoprecipitated by the anti-SAP 62 antibody. This antibody does not cross-react with any E complex-specific components, indicating that SAP 62 itself is associated with the E complex. To determine whether other U2 snRNP components are associated with the E complex, we used antibodies to the U2 snRNP proteins B"and SAP 155. These antibodies also specifically immunoprecipitate the E complex. These observations indicate that U2 snRNP is associated with the E complex. However, we find that U2 snRNP is not as tightly bound in the E complex as it is in the A complex. The possible significance of the weak association of U2 snRNP with the E complex is discussed.

A subpopulation of human urothelial cells is stimulated to proliferate by treatment in vitro with lipoteichoic acid, a cell wall component of Streptococcus faecalis

Urinary tract infection with gram-positive bacteria is common. Avenues for ingress of bacteria into the bladder include luminal and suburothelial infection. Terminally differentiated superficial urothelial cells lining the lumen of the bladder are often shed in response to infection. In contrast, infection-induced altered function of progenitors of urothelial cells residing in the basal layer of the urothelium is likely to have long lasting effects on the structure and function of the urothelium. The main objective of the present studies was to investigate in vitro the possibility that exposure to lipoteichoic acid, a cell wall component of the gram-positive Streptococcus faecalis (LT-2), stimulates basal urothelial cells to proliferate. To simulate conditions that restrict proliferation and inhibit terminal differentiation of urothelial cells in the basal layer, secondary cultures of urothelial cells (UT) were grown on collagen or fibronectin coated substrate in medium containing low levels of Ca2+ (0.2 mM) and growth factors (0.005% bovine pituitary extract [BPE]). Under these conditions, UT cultures displayed a highly reproducible colony size distribution, possibly due to the fact that colonies were progeny of basal cells with various proliferative potentials, retained in vitro. In cultures grown under growth-restricting conditions the majority of progenitors appeared to be quiescent, just like stem cells in the basal layer of the urothelium. Thus, the population of large colonies (more than six cells/colony), was small when a steady state of growth was achieved, 3-7 days after seeding. Growth factors (0.005-0.5% BPE) caused a dose-dependent increase in this population of large colonies. Moreover, treatment of UT grown under growth-restricting conditions (0.005% BPE) with LT-2 increased steady-state levels of the population of large colonies to levels obtained in cultures growing under optimal conditions with respect to growth factors. These results indicated that the subpopulation of progenitors, quiescent under normal conditions, could be stimulated to proliferate. Two lines of evidence were consistent with the possibility that treatment with LT-2 stimulated proliferation of the subpopulation of progenitors and that large colonies were the progeny of this subpopulation of single cells: (1) treatment with LT-2 increased the percentage of single cells that incorporated bromodeoxyuridine (i.e., proliferated) in a time-dependent manner. (2) An increase in the percentage of large colonies was found following LT-2-triggered proliferation of single cells. We propose that, under normal conditions, cells produced in response to LT-2-triggered proliferation of stem cells are removed from the system due to an increased rate of differentiation followed by apoptosis. Recurrent infection and inflammation may not allow these processes to proceed effectively, resulting in chronic injury to the bladder. Moreover, under conditions in which stem cells accumulate mutations that incapacitate their progeny to undergo apoptosis, LT-triggered proliferation could be a contributing factor to tumorigenesis.

Nitric oxide mediates the action of lipoteichoic acid on the function of human urothelial cells

Gram-positive bacteria are recognized pathogens in urinary tract infections. Lipoteichoic acids, major components of the cell wall of gram-positive bacteria, are important virulence attributes, but their mechanism of action is not well understood. We have postulated that infection-induced altered function of progenitors of urothelial cells (UT) residing in the basal layer is likely to have long-lasting effects on the architecture and function of the urothelium. Our earlier in vitro studies in UT of basal type, grown under growth restricting conditions, have shown that 1) treatment with lipoteichoic acid from Streptococcus faecalis (LT-2) stimulates a subpopulation of progenitors of urothelial cells to proliferate, and 2) resulting large colonies differentiated at an increased rate under conditions simulating those in the basal layer of the urothelium. The hypothesis underlying the present studies was that nitric oxide (NO) mediated LT-2 action on these functions of UT. Immunocytochemical studies using an antibody against inducible nitric oxide synthase (iNOS) confirmed expression of iNOS in LT-2-treated UT. Our hypothesis was tested by treating UT grown under growth restricting conditions (0.005% bovine pituitary extract) with LT-2 (25 micrograms/ml), in the presence or absence of inhibitors of NOS (1 mM NG-nitro-L-arginine methyl ester [L-NAME]; 1 microM dexamethasone [DEXA]) or 25 microM hemoglobin, a potent inactivator of NO. Treatment with LT-2 in the presence of these agents prevented the following effects of LT-2 alone: 1) the stimulatory effect on proliferation of single cells, as well as within the resulting large colonies; 2) the subsequent differentiation of large colonies resulting from this proliferative activity, as indicated by distribution of beta 1 subunit-containing integrins to cell-cell contacts; 3) the inhibitory effect on the subsequent ability of LT-2-treated UT to attach to extracellular matrix proteins. These studies suggest that induction of NOS by LT-2, initially aimed at restricting the replication of infectious agents, may have potential cost of damage to the host bladder by interfering with urothelial differentiation.

Long-term treatment with lipoteichoic acid from Streptococcus faecalis affects differentiation and expression and cellular distribution of beta 1 integrins in human urothelial cells

Gram-positive bacteria are recognized pathogens in urinary tract infections. Cellular mechanisms triggered by lipoteichoic acids (LTs), cell well components of gram-positive bacteria, have not been completely defined. We have postulated that infection-induced altered function of progenitors of urothelial cells residing in the basal layer is likely to have long lasting effects on the architecture and function of the urothelium. Our recent studies in vitro showed that treatment of poorly differentiated urothelial cells of basal type with LT from Streptococcus faecalis (LT-2) stimulated rapid proliferation of a subpopulation of progenitors of urothelial cells, supporting this possibility (Elgavish et al., 1996, J. Cell. Physiol., 169:42-51). The hypothesis underlying the present studies was that, following LT-triggered increase in proliferation of progenitors, the rate of differentiation of the resulting progeny was also stimulated. We proposed that this mechanism may allow rapid removal of cells from the injured area and replacement by cells that have not been exposed to infection. To simulate in vitro conditions in the basal layer that inhibit terminal differentiation, cells grew on fibronectin or collagen-coated substrate, in medium containing low Ca2+ (0.2 mM) and low levels of growth factors (0.005% bovine pituitary extract [BPE]). During the last 3 days in culture, cells grew in the same low Ca2+ (0.2 mM) medium, but without BPE, with or without LT-2. In a positive control group, cells grew during their last 3 days in culture in medium without BPE and LT-2 but in which levels levels of Ca2+ were higher (2 mM), a condition known to stimulate differentiation in other cell types. Several lines of evidence supported the possibility that long-term treatment with LT-2 stimulated progression of large colonies (i.e., the progeny resulting from LT-triggered proliferation) to a more differentiated state: (1) the rate of their differentiation, determined by criterion of intense cytokeratin 8 expression, was increased; (2) steady-state level of beta mRNA and expression of beta 1 subunit of integrins at the protein level were inhibited; (3) in contrast to large colonies in control cultures, the entire population of LT-2-treated large colonies contained beta 1 integrins distributed at cell-cell contacts. Raising extracellular Ca2+ concentration to 2 mM induced similar effects, suggesting that LT-2 may act by stimulating an increase in intracellular levels of Ca2+. However, further studies will be needed to elucidate the molecular mechanisms underlying the stimulatory effect of LT-2 on proliferation of progenitors of urothelial cells in the basal layer of the urothelium and subsequent differentiation of their progeny. We propose that these processes may have a causative role in the pathological changes that occur in the aftermath of chronic or recurrent suburothelial infection in the urinary bladder.

Identification of proteins that interact with exon sequences, splice sites, and the branchpoint sequence during each stage of spliceosome assembly

We have carried out a systematic analysis of the proteins that interact with specific intron and exon sequences during each stage of mammalian spliceosome assembly. This was achieved by site-specifically labeling individual nucleotides within the 5' and 3' splice sites, the branchpoint sequence (BPS), or the exons with 32P and identifying UV-cross-linked proteins in the E, A, B, or C spliceosomal complex. Significantly, two members of the SR family of splicing factors, which are known to promote E-complex assembly, cross-link within exon sequences to a region approximately 25 nucleotides upstream from the 5' splice site. At the 5' splice site, cross-linking of the U5 small nuclear ribonucleoprotein particle protein, U5(200), was detected in both the B and C complexes. As observed in yeast cells, U5(200), also cross-links to intron/exon sequences at the 3' splice site in the C complex and may play a role in aligning the 5' and 3' exons for ligation. With label at the branch site, we detected three distinct proteins, designated BPS72,BpS70, and BPS56, which replace one another in the E, A, and C complexes. Another dynamic exchange was detected with pre-mRNA labeled at the AG dinucleotide of the 3' splice site. In this case, a protein, AG100,cross-links in the A complex and is replaced by another protein, AG75, in the C complex. The observation that these proteins are specifically associated with critical pre-mRNA sequence elements in functional complexes at different stages of spliceosome assembly implicates roles for these factors in key recognition events during the splicing pathway.

Linear scleroderma in children

BACKGROUND

Linear scleroderma is a cutaneous disease of unknown etiology. It most often affects children, who develop band-like lesions in an asymmetric distribution. The literature is reviewed as to the diagnosis, pathogenesis, and treatment of linear scleroderma.

CASE REPORT

Six new cases of linear scleroderma in children are reported. Their ages ranged from 6 to 17 years, and five were girls. A 17-year-old girl had en coup de sabre. Multiple treatment modalities were used. All laboratory testing was negative.

CONCLUSIONS

Linear scleroderma is a clinical diagnosis. The pathogenesis remains unknown. A consistently effective therapy has not been found, although diphenylhydantoin and ticlopidine hydrochloride should be evaluated in clinical trials.

Initial splice-site recognition and pairing during pre-mRNA splicing

Advances over the past year have provided new insights into the mechanisms involved in the initial recognition and pairing of the 5' and 3' splice sites in complex metazoan pre-mRNAs. Highlights include the demonstration that exonic enhancers can promote trans splicing and that an excess of the serine and arginine rich family of splicing proteins can obviate the requirement for U1 small nuclear ribonucleoprotein particle in splicing.

Evidence that sequence-independent binding of highly conserved U2 snRNP proteins upstream of the branch site is required for assembly of spliceosomal complex A

A critical step in the pre-mRNA splicing reaction is the stable binding of U2 snRNP to the branchpoint sequence (BPS) to form the A complex. The multimeric U2 snRNP protein complexes SF3a and SF3b are required for A complex assembly, but their specific roles in this process are not known. Saccharomyces cerevisiae homologs of all of the SF3a, but none of the SF3b, subunits have been identified. Here we report the isolation of a cDNA encoding the mammalian SF3b subunit SAP 145 and the identification of its probable yeast homolog (29% identity). This first indication that the homology between yeast and metazoan A complex proteins can be extended to SF3b adds strong new evidence that the mechanism of A complex assembly is highly conserved. To investigate this mechanism in the mammalian system we analyzed proteins that cross-link to 32P-site-specifically labeled pre-mRNA in the A complex. This analysis revealed that SAP 145, together with four other SF3a/SF3b subunits, UV cross-links to pre-mRNA in a 20-nucleotide region upstream of the BPS. Mutation of this region, which we have designated the anchoring site, has no apparent effect on U2 snRNP binding. In contrast, when a 2'O methyl oligonucleotide complementary to the anchoring site is added to the spliceosome assembly reaction, A complex assembly and cross-linking of the SF3a/SF3b subunits are blocked. These data indicate that sequence-independent binding of the highly conserved SF3a/SF3b subunits upstream of the branch site is essential for anchoring U2 snRNP to pre-mRNA.

Skeletal myogenesis: the preferred pathway of chick embryo epiblast cells in vitro

The epiblast layer of the chick embryo gives rise to all embryonic tissues. In vitro analyses were carried out to determine whether epiblast cells could form skeletal muscle prior to entry into the primitive streak. Epiblasts were separated from the mesoderm, hypoblast, and primitive streak, dissociated to produce a single cell suspension, and plated at high density. Myogenesis began on the first day in culture, and by the fifth day most cells had differentiated into skeletal muscle. Some cells differentiated without replicating. MyoD messenger RNA was present in epiblast tissue and translated in practically all cells in culture. Cells from regions of the epiblast which do not form muscle later in the embryo did so in vitro. Epiblasts cultured for 2 days as an intact epithelium, or in the presence of the mesoderm and hypoblast, did not undergo myogenesis. These findings demonstrate that myogenic potential is wide-spread within the primitive streak stage epiblast, and that muscle differentiation, which occurs relatively autonomously in culture, can be prevented by cell and tissue interactions.

Members of a family of proteins (the RD family) detected by a U1 70K monoclonal antibody are present in spliceosomal complexes

We have characterized a monoclonal antibody (mAb) to the U1 snRNP component U1 70K. We find that this antibody recognizes several proteins, in addition to U1 70K, in purified spliceosomal complexes and in total HeLa cell nuclear extract preparations. The novel mAb U1 70K antigens can also be specifically immunoprecipitated by the antibody. Similarly to U1 70K, many of the mAb U1 70K antigens can be phosphorylated by a co-purifying kinase activity. The epitope recognized by mAb U1 70K was previously shown to be a repeating arginine/aspartate (RD) dipeptide. Thus we have designated the novel mAb U1 70K antigens the RD family. Comparison of mAb U1 70K with a recently characterized antibody, mAb 16H3, whose epitope is a repeating R/D or R/E motif, showed that a large subset of the antigens are common. In contrast, most of the mAb U1 70K antigens are distinct from the proteins detected by mAb 104, an antibody to the SR family of splicing factors.

Accumulation of a novel spliceosomal complex on pre-mRNAs containing branch site mutations

Pre-mRNA assembles into spliceosomal complexes in the stepwise pathway E-->A-->B-->C. We show that mutations in the metazoan branchpoint sequence (BPS) have no apparent effect on E complex formation but block the assembly of the A complex and the UV cross-linking of U2 small nuclear ribonucleoprotein particle (snRNP) proteins. Unexpectedly, a novel complex, designated E*, assembles on pre-mRNAs containing BPS mutations. Unlike the E complex, the E* complex accumulates in the presence of ATP. U1 snRNP and U2AF, which are tightly bound to pre-mRNA in the E complex, are not tightly bound in the E* complex. Significantly, previous work showed that U1 snRNP and U2AF become destabilized from pre-mRNA after E complex assembly on normal pre-mRNAs. Thus, our data are consistent with a model in which there are two steps in the transition from the E complex to the A complex (E-->E*-->A). In the first step, U1 snRNP and U2AF are destabilized in an ATP-dependent, BPS-independent reaction. In the second step, the stable binding of U2 snRNP occurs in a BPS-dependent reaction.

Literacy and performance on the Mini-Mental State Examination

OBJECTIVE

Mini-Mental State Examination (MMSE) scores are associated with age, education, and ethnicity. The objective of this research was to determine the relationship between MMSE and literacy.

DESIGN

Cross-sectional.

SETTING

A Community population in Tucson, Arizona.

PARTICIPANTS

Senior citizens in public assistance housing.

MEASUREMENTS

MMSE score, reading level, and sociodemographic variables.

MAIN RESULTS

A total of 214 subjects were tested. The mean age was 72.3 (+/- 8.01), and the mean education level was 10.3 years (range 0-20 years). Reading levels ranged from grade 0 (non-reader) to 8 (maximum value for the test used). with a mean of 4.8 (+/- 2.8). MMSE scores ranged from a mean of 21.9 (+/- 4.6) for non-readers to a mean of 28.0 (+/- 2.0) for subjects with > or = 8th grade reading skills. Multiple regression using reading level, education, age, and ethnicity as independent variables, and MMSE score as the dependent variable, showed the highest correlation was between MMSE and reading level (R2 = .265). Education level made only a small additional contribution; age and ethnicity did not enter the regression equation. Correlations between reading level and individual MMSE subsections were highest between reading level and MMSE language items (r = .499).

CONCLUSIONS

The correlation between MMSE score and reading skills is stronger than the correlation with other sociodemographic variables. Proper interpretation of MMSE scores requires knowledge of patients' reading levels.

A two-step mechanism for 5' and 3' splice-site pairing

A fundamental question in the splicing of precursor messenger RNA is how the 5' and 3' splice sites are recognized and paired during the splicing reaction. It has been proposed that spliceosome assembly in metazoan pre-mRNAs can be initiated through interaction between the 3' splice site and specific sequence elements on the downstream exon (an exonic enhancer or a 5' splice site). Pairing of the intronic 5' and 3' splice sites occurs subsequently. We report here that 5' and 3' splice sites located on separate synthetic pre-mRNA substrates can be efficiently trans-spliced if the 3' trans-splicing substrate contains these downstream sequence elements. Moreover, selection of the trans 5' splice site can occur after the second pre-spliceosomal complex A has assembled on the 3' trans-splicing substrate. Thus our data demonstrate that 5' and 3' splice-site pairing in metazoans can occur in two distinct steps.

Ethanol elimination rates in an ED population

Knowledge of the rate of ethanol elimination is essential in the assessment of the intoxicated patient. Surprisingly little literature is available regarding ethanol elimination rates in emergency department (ED) patients; prior studies almost exclusively examined populations of alcoholics or normal controls. Consequently, this prospective observational study was undertaken to assess the rate of ethanol elimination in an ED population. Twenty-four consecutive adult ED patients clinically suspected of intoxication who had serum ethanol determinations drawn were enrolled. Patients underwent serial ethanol determinations via breathalyzer (Intoxilyzer 1400, CMI Inc., Owensboro, KY). Linear regression analysis of the plot of decrease in ethanol level over time was performed to determine the rate of ethanol elimination. Initial ethanol levels in the 24 patients ranged from 58 to 447 mg/dL (mean, 249 +/- 109 [SD] mg/dL). Patients were observed for a minimum of 2 and a maximum of 9 observations (mean, 3.9 +/- 1.7), over a period of 0.5 to 12.1 hours (mean, 4.4 +/-3.5 h). Clinical features of intoxication were poorly correlated with ethanol level (r < .5). The rate of ethanol elimination in the ED population was 19.6 mg/dL/h (r = .83; 95% confidence interval [CI], 16.9 to 22.3 mg/dL/h). Subgroup analysis found differences that were statistically significant but small. Multiple regression analysis showed that time was the major variable useful in predicting changes in ethanol level (P < .001).(ABSTRACT TRUNCATED AT 250 WORDS)

Ethical and clinical issues with Native-American elders. End-of-life decision making

This article offers guidance to clinicians for approaching and conducting end-of-life decision-making conversations with Native American elders. The guidelines emphasize the need for flexibility and clarity in communication, avoidance of insistence on formal structures and rigid time frames for decision-making, sensitivity to the cultural and family situation of the elder, and recognition that cultural as well as language interpretation may be necessary. Given the great diversity of the tribes and bands as well as languages among native people and the paucity of empirical work on this topic, the tentative nature of these guidelines is stressed.

SR proteins promote the first specific recognition of Pre-mRNA and are present together with the U1 small nuclear ribonucleoprotein particle in a general splicing enhancer complex

We show that addition of SR proteins to in vitro splicing extracts results in a significant increase in assembly of the earliest prespliceosomal complex E and a corresponding decrease in assembly of the heterogeneous nuclear ribonucleoprotein (hnRNP) complex H. In addition, SR proteins promote formation of the E5' and E3' complexes that assemble on RNAs containing only 5' and 3' splice sites, respectively. We conclude that SR proteins promote the earliest specific recognition of both the 5' and 3' splice sites and are limiting for this function in HeLa nuclear extracts. Using UV cross-linking, we demonstrate specific, splice site-dependent RNA-protein interactions of SR proteins in the E, E5', and E3' complexes. SR proteins do not UV cross-link in the H complex, and conversely, hnRNP cross-linking is largely excluded from the E-type complexes. We also show that a discrete complex resembling the E5' complex assembles on both purine-rich and non-purine-rich exonic splicing enhancers. This complex, which we have designated the Enhancer complex, contains U1 small nuclear RNP (snRNP) and is associated with different SR protein family members, depending on the sequence of the enhancer. We propose that both downstream 5' splice site enhancers and exonic enhancers function by establishing a network of pre-mRNA-protein and protein-protein interactions involving U1 snRNP, SR proteins, and U2AF that is similar to the interactions that bring the 5' and 3' splice sites together in the E complex.

Occupational asthma in a latex doll manufacturing plant

BACKGROUND

Occupational asthma caused by latex has been reported in health care workers and workers in glove manufacturing plants.

OBJECTIVE

We report occupational asthma from latex in a newly identified occupational setting, a latex doll manufacturing plant.

METHODS

We evaluated an index case of asthma associated with work in a latex doll manufacturing plant by performing a workplace challenge and evaluating the work environment. We then performed an occupational survey and skin testing of 22 workers in the doll manufacturing plant.

RESULTS

The patient, a 21-year-old woman, had severe immediate bronchospasm within minutes of beginning a workplace challenge where sanding of latex parts was performed. Two of 22 workers surveyed (including the patient) reported flushing, rhinoconjunctivitis, and wheezing on exposure to sanded doll parts. These two workers were the only subjects surveyed to have a history of atopy and positive immediate-type skin test responses to a raw latex extract and to common aeroallergens.

CONCLUSIONS

Sanding or grinding of solid latex during the manufacturing process may result in a significant incidence of occupational asthma and rhinoconjunctivitis from latex sensitization. Atopic workers appear to be most susceptible to developing latex sensitivity in this setting.

The prespliceosome components SAP 49 and SAP 145 interact in a complex implicated in tethering U2 snRNP to the branch site

The mammalian spliceosome-associated protein, SAP 49, is associated specifically with U2 snRNP and is the most efficiently UV cross-linked protein in the spliceosomal complexes A, B, and C. We show here that SAP 49 cross-links to a region in the pre-mRNA immediately upstream of the branchpoint sequence in the prespliceosomal complex A. In addition to the RNA-binding activity of SAP 49, we show that this protein interacts directly and highly specifically with another U2 snRNP-associated spliceosomal protein, SAP 145. We have isolated a cDNA-encoding SAP 49 and find that it contains two amino-terminal RNA-recognition motifs (RRMs), consistent with the observation that SAP 49 binds directly to pre-mRNA. The remainder of the protein is highly proline-glycine rich (39% proline and 17% glycine). Unexpectedly, the SAP 49-SAP 145 protein-protein interaction requires the amino-terminus of SAP 49 that contains the two RRMs. The observation that SAP 49 and SAP 145 interact directly with both U2 snRNP and the pre-mRNA suggests that this protein complex plays a role in tethering U2 snRNP to the branch site.