Backseat drivers: Regulation of dynein motility

Control of the activity of the microtubule motor cytoplasmic dynein 1 is essential for its function in intracellular transport. A recent paper by McKenney et al. published in Science shows that activation of processive dynein motility requires the formation of cargo adaptor-dynein-dynactin complexes.Cells rely on their intracellular components being in the right place at the right time. In eukaryotic cells, microtubule-based transport by motor proteins belonging to the dynein and kinesin families plays a crucial role in regulating the spatial-temporal distribution of a multitude of membrane bound organelles, protein complexes, and ribonucleoprotein complexes. Disruption of these transport functions can play a key role in pathological processes and the activities of microtubule motors are frequently usurped by both viral and bacterial pathogens to aid their replication¹. Cytoplasmic dynein 1 is the predominant motor protein complex mediating transport towards the minus end of microtubules and it transports many different cargoes². The dynein holoenzyme is composed of a dimeric heavy chain that contains the microtubule-binding and AAA-ATPase motor domains associated with a series of smaller accessory proteins implicated in regulation and cargo binding. Targeting of the motor to a specific cargo is often mediated by so-called ''adaptor proteins'' that can associate with both the cargo (e.g., endosomes) and the motor complex itself.Diverse functions and diverse cargoes necessitate a high level of cytoplasmic dynein regulation. Such regulation must limit motor activity to prevent wasteful ATP hydrolysis in the absence of cargo transport and prevent inappropriate movement of cargo-free motors on microtubules. Regulation must allow exquisite responses to dynamic spatial and temporal cues for cargo transport and allow for the selective recognition of a wide range of cargoes/adaptors that, ostensibly at least, may be quite different. It must also support bidirectional transport processes.A second multiprotein complex, dynactin³, helps to regulate cytoplasmic dynein 1. Indeed, dynactin is required for almost all known functions of cytoplasmic dynein. It is thought that dynactin plays a key role in attachment to cargo and promotes dynein activity. Despite this, its precise mechanism of action and the role of cargo attachment itself has remained unclear.Recently, a study by McKenney et al.⁴ in Science and a complimentary study by Schlager et al.⁵ in EMBO J, have taken crucial steps forward, uncovering a role for tripartite cargo adaptor-dynein-dynactin complexes in directly promoting dynein activity (Figure 1). Both of these studies utilize elegant biochemical purification coupled with the technical feat of high-resolution, single-molecule, multicolor TIRF microscopy to examine the properties of these assemblies as they move on labelled microtubules in vitro.Open in a separate windowFigure 1Schematic showing proposed organization of an active dynein-dynactin-cargo complex. Cargo (e.g., an endosome) couples to the motor complex via surface receptors (e.g., a Rab GTPases) that recruit specific adaptor proteins (e.g., BiCD2, Hook). These in turn recruit dynein/dynactin and stabilize their association, supporting the microtubule binding and processivity of the dynein-dynactin complex.McKenney et al.⁴ begin by showing that cytoplasmic dynein purified from rat brain (that is free from both dynactin and cargo proteins) binds to microtubules but does not engage in the processive long distance movements characteristic of motility in vivo. This implies that dynein requires activation. To isolate transport-active complexes, the authors use an alternative approach — affinity purification (from RPE-1 cells) via the cargo adaptor BicD2 (that couples dynein to Rab6-containing organelles). This yields stable associations of BicD2, dynein and dynactin, which when examined in TIRF motility assays, exhibit speeds and run lengths approaching those observed in vivo. Importantly, the authors reveal that these complexes consist of a single copy of dynein, dynactin and BicD2 (a dimer), demonstrating that the intrinsic processivity of the holoenzyme is directly enhanced and ruling out effects from cooperation between motor complexes in this system.The authors then ask which components of this tripartite complex are needed for dynein activation — is BicD2 required or is dynactin sufficient? They show that removal of BicD2 results in a loss of processive motility and dissociation of dynein from dynactin, demonstrating the importance of the cargo adaptor itself in formation of stable dynein-dynactin complexes and motility. Schlager et al.⁵ come to similar conclusions in their study using recombinant human dynein produced in baculovirus (an achievement in its own right), showing that purified dynactin is unable to activate motility in the absence of BicD2.To determine whether this mechanism is unique to BicD2 or whether it holds for other cargo adaptors, McKenney et al. expand their study to include three other adaptors — Rab11-FIP3 (for recycling endosomes), Spindly (kinetochores) and Hook (early endosomes). They show that all three can be used to purify dynein-dynactin and that those complexes are capable of processive motility in a manner comparable to those derived from BicD2 affinity purification.These studies thus highlight a crucial role for the cargo adaptor, coupled with dynactin, in dynein activation. This is somewhat reminiscent of several kinesin family proteins which exist in an inactive state in the absence of cargo⁶. In the future it will be important to understand why dynein is inactive in the absence of dynactin/cargo and what changes occur within the complex upon cargo adaptor/dynactin binding to cause its conversion to a processive motor. Clues may come from comparison with S. Cerevisiae dynein which appears constitutively active and may associate with dynactin in the absence of cargo⁷. It will also be important to determine the regulatory signals that control formation and dissociation of these active complexes, how they interact with other dynein regulators such as the Lis1-NudEL complex and how they are affected by the action of plus-end-directed motors associated with the same cargo.Further progress should also come from understanding of the structural and biophysical characteristics of the motor-cargo interfaces that we now know must ultimately drive dynein activation. Indeed, the fact that four distinct cargo adaptors can promote formation of transport-active complexes may imply the existence of common features in dynein-cargo adaptor recognition mechanisms that support activation. Importantly, the establishment of these elegant in vitro systems that recapitulate many of the properties of cytoplasmic dynein in vivo will now allow for a full molecular dissection of this ubiquitous and fascinating process.     

Cell Cycle-Dependent Microtubule-Based Dynamic Transport of Cytoplasmic Dynein in Mammalian Cells

Background

Cytoplasmic dynein complex is a large multi-subunit microtubule (MT)-associated molecular motor involved in various cellular functions including organelle positioning, vesicle transport and cell division. However, regulatory mechanism of the cell-cycle dependent distribution of dynein has not fully been understood.

Methodology/Principal Findings

Here we report live-cell imaging of cytoplasmic dynein in HeLa cells, by expressing multifunctional green fluorescent protein (mfGFP)-tagged 74-kDa intermediate chain (IC74). IC74-mfGFP was successfully incorporated into functional dynein complex. In interphase, dynein moved bi-directionally along with MTs, which might carry cargos such as transport vesicles. A substantial fraction of dynein moved toward cell periphery together with EB1, a member of MT plus end-tracking proteins (+TIPs), suggesting +TIPs-mediated transport of dynein. In late-interphase and prophase, dynein was localized at the centrosomes and the radial MT array. In prometaphase and metaphase, dynein was localized at spindle MTs where it frequently moved from spindle poles toward chromosomes or cell cortex. +TIPs may be involved in the transport of spindle dyneins. Possible kinetochore and cortical dyneins were also observed.

Conclusions and Significance

These findings suggest that cytoplasmic dynein is transported to the site of action in preparation for the following cellular events, primarily by the MT-based transport. The MT-based transport may have greater advantage than simple diffusion of soluble dynein in rapid and efficient transport of the limited concentration of the protein.     

Load‐dependent detachment kinetics plays a key role in bidirectional cargo transport by kinesin and dynein

Bidirectional cargo transport along microtubules is carried out by opposing teams of kinesin and dynein motors. Despite considerable study, the factors that determine whether these competing teams achieve net anterograde or retrograde transport in cells remain unclear. The goal of this work is to use stochastic simulations of bidirectional transport to determine the motor properties that most strongly determine overall cargo velocity and directionality. Simulations were carried out based on published optical tweezer characterization of kinesin‐1 and kinesin‐2, and for available data for cytoplasmic dynein and the dynein‐dynactin‐BicD2 (DDB) complex. By varying dynein parameters and analyzing cargo trajectories, we find that net cargo transport is predicted to depend minimally on the dynein stall force, but strongly on dynein load‐dependent detachment kinetics. In simulations, dynein is dominated by kinesin‐1, but DDB and kinesin‐1 are evenly matched, recapitulating recent experimental work. Kinesin‐2 competes less well against dynein and DDB, and overall, load‐dependent motor detachment is the property that most determines a motor's ability to compete in bidirectional transport. It follows that the most effective intracellular regulators of bidirectional transport are predicted to be those that alter motor detachment kinetics rather than motor velocity or stall force.      

Prognostic role of c-met expression in breast cancer patients

Background

Hepatocyte growth factor plays an important role in tumor growth, metastasis and angiogenesis. C-met is HGF''s high affinity receptor.

Aim

The aim of the study was to assess the correlations between c-met expression and clinic-pathological factors in breast cancer tissues. Furthermore, the purpose of the study was to evaluate the prognostic value of the hepatocyte growth factor receptor (HGFR, c-met) expressions in homogenous group of breast cancer patients.

Materials and methods

Tumor samples were collected from 302 patients with breast carcinoma treated with primary surgery. We have assessed the percentage of tumor cells with c-met expression, the intensity of reaction and the ratio of these two factors—immunoreactivity according to the Remmele score.

Results

We have observed no correlations between HGFR immunoreactivities and clinical parameters (tumor size, grade, axillary lymph node status, age). In 5-year observation we have found prognostic value of assessing c-met immunoreactivity in primary tumor.

Conclusion

Our study has revealed prognostic value of c-met. Unlike in other authors’ studies, our patients’ group is very homogenous which might contribute to obtained results.     

Coiled‐coil registry shifts in the F684I mutant of Bicaudal D result in cargo‐independent activation of dynein motility

The dynein adaptor Drosophila Bicaudal D (BicD) is auto‐inhibited and activates dynein motility only after cargo is bound, but the underlying mechanism is elusive. In contrast, we show that the full‐length BicD/F684I mutant activates dynein processivity even in the absence of cargo. Our X‐ray structure of the C‐terminal domain of the BicD/F684I mutant reveals a coiled‐coil registry shift; in the N‐terminal region, the two helices of the homodimer are aligned, whereas they are vertically shifted in the wild‐type. One chain is partially disordered and this structural flexibility is confirmed by computations, which reveal that the mutant transitions back and forth between the two registries. We propose that a coiled‐coil registry shift upon cargo‐binding activates BicD for dynein recruitment. Moreover, the human homolog BicD2/F743I exhibits diminished binding of cargo adaptor Nup358, implying that a coiled‐coil registry shift may be a mechanism to modulate cargo selection for BicD2‐dependent transport pathways.     

Drosophila TRPN(?=?NOMPC) Channel Localizes to the Distal End of Mechanosensory Cilia

Background

A TRPN channel protein is essential for sensory transduction in insect mechanosensory neurons and in vertebrate hair cells. The Drosophila TRPN homolog, NOMPC, is required to generate mechanoreceptor potentials and currents in tactile bristles. NOMPC is also required, together with a TRPV channel, for transduction by chordotonal neurons of the fly''s antennal ear, but the TRPN or TRPV channels have distinct roles in transduction and in regulating active antennal mechanics. The evidence suggests that NOMPC is a primary mechanotransducer channel, but its subcellular location—key for understanding its exact role in transduction—has not yet been established.

Methodology/Principal Findings

Here, by immunostaining, we locate NOMPC at the tips of mechanosensory cilia in both external and chordotonal sensory neurons, as predicted for a mechanotransducer channel. In chordotonal neurons, the TRPN and TRPV channels are respectively segregated into distal and proximal ciliary zones. This zonal separation is demarcated by and requires the ciliary dilation, an intraciliary assembly of intraflagellar transport (IFT) proteins.

Conclusions

Our results provide a strong evidence for NOMPC as a primary transduction channel in Drosophila mechansensory organs. The data also reveals a structural basis for the model of auditory chordotonal transduction in which the TRPN and TRPV channels play sequential roles in generating and amplifying the receptor potential, but have opposing roles in regulating active ciliary motility.     

SNX4 in Complex with Clathrin and Dynein: Implications for Endosome Movement

Background

Sorting nexins (SNXs) constitute a family of proteins classified by their phosphatidylinositol (PI) binding Phox homology (PX) domain. Some members regulate intracellular trafficking. We have here investigated mechanisms underlying SNX4 mediated endosome to Golgi transport.

Methodology/Principal Findings

We show that SNX4 forms complexes with clathrin and dynein. The interactions were inhibited by wortmannin, a PI3-kinase inhibitor, suggesting that they form when SNX4 is associated with PI(3)P on endosomes. We further localized the clathrin interacting site on SNX4 to a clathrin box variant. A short peptide containing this motif was sufficient to pull down both clathrin and dynein. Knockdown studies demonstrated that clathrin is not required for the SNX4/dynein interaction. Moreover, clathrin knockdown led to increased Golgi transport of the toxin ricin, as well as redistribution of endosomes.

Conclusions/Significance

We discuss the possibility of clathrin serving as a regulator of SNX4-dependent transport. Upon clathrin release, dynein may bind SNX4 and mediate retrograde movement.     

Critical Environmental Factors for Transportation Cycling in Children: A Qualitative Study Using Bike-Along Interviews

Background

Environmental factors are found to influence transport-related physical activity, but have rarely been studied in relation with cycling for transport to various destinations in 10–12 yr old children. The current qualitative study used ‘bike-along interviews’ with children and parents to allow discussion of detailed environmental factors that may influence children''s cycling for transport, while cycling in the participant''s neighborhood.

Methods

Purposeful convenience sampling was used to recruit 35 children and one of their parents residing in (semi-) urban areas. Bike-along interviews were conducted to and from a randomly chosen destination (e.g. library) within a 15 minutes'' cycle trip in the participant''s neighborhood. Participants wore a GoPro camera to objectively assess environmental elements, which were subsequently discussed with participants. Content analysis and arising themes were derived using a grounded theory approach.

Results

The discussed environmental factors were categorized under traffic, urban design, cycling facilities, road design, facilities at destination, aesthetics, topography, weather, social control, stranger danger and familiar environment. Across these categories many environmental factors were (in)directly linked to road safety. This was illustrated by detailed discussions of the children''s visibility, familiarity with specific traffic situations, and degree of separation, width and legibility of cycle facilities.

Conclusion

Road safety is of major concern in this 10–12 yr old study population. Bike-along interviews were able to identify new, detailed and context-specific physical environmental factors which could inform policy makers to promote children''s cycling for transport. However, future studies should investigate whether hypothetical changes to such micro environmental features influence perceptions of safety and if this in turn could lead to changes in children''s cycling for transport.     

Clarifying the Use of Aggregated Exposures in Multilevel Models: Self-Included vs. Self-Excluded Measures

Background

Multilevel analyses are ideally suited to assess the effects of ecological (higher level) and individual (lower level) exposure variables simultaneously. In applying such analyses to measures of ecologies in epidemiological studies, individual variables are usually aggregated into the higher level unit. Typically, the aggregated measure includes responses of every individual belonging to that group (i.e. it constitutes a self-included measure). More recently, researchers have developed an aggregate measure which excludes the response of the individual to whom the aggregate measure is linked (i.e. a self-excluded measure). In this study, we clarify the substantive and technical properties of these two measures when they are used as exposures in multilevel models.

Methods

Although the differences between the two aggregated measures are mathematically subtle, distinguishing between them is important in terms of the specific scientific questions to be addressed. We then show how these measures can be used in two distinct types of multilevel models—self-included model and self-excluded model—and interpret the parameters in each model by imposing hypothetical interventions. The concept is tested on empirical data of workplace social capital and employees'' systolic blood pressure.

Results

Researchers assume group-level interventions when using a self-included model, and individual-level interventions when using a self-excluded model. Analytical re-parameterizations of these two models highlight their differences in parameter interpretation. Cluster-mean centered self-included models enable researchers to decompose the collective effect into its within- and between-group components. The benefit of cluster-mean centering procedure is further discussed in terms of hypothetical interventions.

Conclusions

When investigating the potential roles of aggregated variables, researchers should carefully explore which type of model—self-included or self-excluded—is suitable for a given situation, particularly when group sizes are relatively small.     

Community Analysis of Chronic Wound Bacteria Using 16S rRNA Gene-Based Pyrosequencing: Impact of Diabetes and Antibiotics on Chronic Wound Microbiota

Background

Bacterial colonization is hypothesized to play a pathogenic role in the non-healing state of chronic wounds. We characterized wound bacteria from a cohort of chronic wound patients using a 16S rRNA gene-based pyrosequencing approach and assessed the impact of diabetes and antibiotics on chronic wound microbiota.

Methodology/Principal Findings

We prospectively enrolled 24 patients at a referral wound center in Baltimore, MD; sampled patients'' wounds by curette; cultured samples under aerobic and anaerobic conditions; and pyrosequenced the 16S rRNA V3 hypervariable region. The 16S rRNA gene-based analyses revealed an average of 10 different bacterial families in wounds—approximately 4 times more than estimated by culture-based analyses. Fastidious anaerobic bacteria belonging to the Clostridiales family XI were among the most prevalent bacteria identified exclusively by 16S rRNA gene-based analyses. Community-scale analyses showed that wound microbiota from antibiotic treated patients were significantly different from untreated patients (p = 0.007) and were characterized by increased Pseudomonadaceae abundance. These analyses also revealed that antibiotic use was associated with decreased Streptococcaceae among diabetics and that Streptococcaceae was more abundant among diabetics as compared to non-diabetics.

Conclusions/Significance

The 16S rRNA gene-based analyses revealed complex bacterial communities including anaerobic bacteria that may play causative roles in the non-healing state of some chronic wounds. Our data suggest that antimicrobial therapy alters community structure—reducing some bacteria while selecting for others.     

US News and World Report Cancer Hospital Rankings: Do They Reflect Measures of Research Productivity?

Context

Prior research has faulted the US News and World Report hospital specialty rankings for excessive reliance on reputation, a subjective measure of a hospital''s performance.

Objective

To determine whether and to what extent reputation correlates with objective measures of research productivity among cancer hospitals.

Design

A retrospective observational study.

Setting

Automated search of NIH Reporter, BioEntrez, BioMedline and Clinicaltrials.gov databases.

Participants

The 50 highest ranked cancer hospitals in 2013''s US News and World Report Rankings.

Exposure

We ascertained the number of NCI funded grants, and the cumulative funds received by each cancer center. Additionally, we identified the number of phase I, phase II, and phase III studies published and indexed in MEDLINE, and registered at clinicaltrials.gov. All counts were over the preceding 5 years. For published articles, we summed the impact factor of the journals in which they appeared. Trials were attributed to centers on the basis of the affiliation of the lead author or study principal investigator.

Main Outcome

Correlation coefficients from simple and multiple linear regressions for measures of research productivity and a center''s reputation.

Results

All measures of research productivity demonstrated robust correlation with reputation (mean r-squared  = 0.65, median r-squared = 0.68, minimum r-squared = .41, maximum r-squared = 0.80). A multivariable model showed that 93% of the variation in reputation is explained by objective measures.

Conclusion

Contrary to prior criticism, the majority of reputation, used in US News and World Rankings, can be explained by objective measures of research productivity among cancer hospitals.     

When size does matter: organelle size influences the properties of transport mediated by molecular motors

Background

Organelle transport is driven by the action of molecular motors. In this work, we studied the dynamics of organelles of different sizes with the aim of understanding the complex relation between organelle motion and microenvironment.

Methods

We used single particle tracking to obtain trajectories of melanosomes (pigmented organelles in Xenopus laevis melanophores). In response to certain hormones, melanosomes disperse in the cytoplasm or aggregate in the perinuclear region by the combined action of microtubule and actin motors.

Results and conclusions

Melanosome trajectories followed an anomalous diffusion model in which the anomalous diffusion exponent (α) provided information regarding the trajectories' topography and thus of the processes causing it. During aggregation, the directionality of big organelles was higher than that of small organelles and did not depend on the presence of either actin or intermediate filaments (IF). Depolymerization of IF significantly reduced α values of small organelles during aggregation but slightly affect their directionality during dispersion.

General significance

Our results could be interpreted considering that the number of copies of active motors increases with organelle size. Transport of big organelles was not influenced by actin or IF during aggregation showing that these organelles are moved processively by the collective action of dynein motors. Also, we found that intermediate filaments enhance the directionality of small organelles suggesting that this network keeps organelles close to the tracks allowing their efficient reattachment. The higher directionality of small organelles during dispersion could be explained considering the better performance of kinesin-2 vs. dynein at the single molecule level.     

The secret world of shrimps: polarisation vision at its best

Background

Animal vision spans a great range of complexity, with systems evolving to detect variations in light intensity, distribution, colour, and polarisation. Polarisation vision systems studied to date detect one to four channels of linear polarisation, combining them in opponent pairs to provide intensity-independent operation. Circular polarisation vision has never been seen, and is widely believed to play no part in animal vision.

Methodology/Principal Findings

Polarisation is fully measured via Stokes'' parameters—obtained by combined linear and circular polarisation measurements. Optimal polarisation vision is the ability to see Stokes'' parameters: here we show that the crustacean Gonodactylus smithii measures the exact components required.

Conclusions/Significance

This vision provides optimal contrast-enhancement and precise determination of polarisation with no confusion states or neutral points—significant advantages. Linear and circular polarisation each give partial information about the polarisation of light—but the combination of the two, as we will show here, results in optimal polarisation vision. We suggest that linear and circular polarisation vision not be regarded as different modalities, since both are necessary for optimal polarisation vision; their combination renders polarisation vision independent of strongly linearly or circularly polarised features in the animal''s environment.     

Spirometry Reference Equations for Central European Populations from School Age to Old Age

Background

Spirometry reference values are important for the interpretation of spirometry results. Reference values should be updated regularly, derived from a population as similar to the population for which they are to be used and span across all ages. Such spirometry reference equations are currently lacking for central European populations.

Objective

To develop spirometry reference equations for central European populations between 8 and 90 years of age.

Materials

We used data collected between January 1993 and December 2010 from a central European population. The data was modelled using “Generalized Additive Models for Location, Scale and Shape” (GAMLSS).

Results

The spirometry reference equations were derived from 118''891 individuals consisting of 60''624 (51%) females and 58''267 (49%) males. Altogether, there were 18''211 (15.3%) children under the age of 18 years.

Conclusion

We developed spirometry reference equations for a central European population between 8 and 90 years of age that can be implemented in a wide range of clinical settings.     

Do Ask,Do Tell: High Levels of Acceptability by Patients of Routine Collection of Sexual Orientation and Gender Identity Data in Four Diverse American Community Health Centers

Background

The Institute of Medicine and The Joint Commission have recommended asking sexual orientation and gender identity (SOGI) questions in clinical settings and including such data in Electronic Health Records (EHRs). This is increasingly viewed as a critical step toward systematically documenting and addressing health disparities affecting lesbian, gay, bisexual, and transgender (LGBT) people. The U.S. government is currently considering whether to include SOGI data collection in the Stage 3 guidelines for the incentive program promoting meaningful use of EHR. However, some have questioned whether acceptable standard measures to collect SOGI data in clinical settings exist.

Methods

In order to better understand how a diverse group of patients would respond if SOGI questions were asked in primary care settings, 301 randomly selected patients receiving primary care at four health centers across the U.S. were asked SOGI questions and then asked follow-up questions. This sample was mainly heterosexual, racially diverse, and geographically and regionally broad.

Results

There was a strong consensus among patients surveyed about the importance of asking SOGI questions. Most of the LGBT respondents thought that the questions presented on the survey allowed them to accurately document their SOGI. Most respondents—heterosexual and LGBT—answered the questions, and said that they would answer such questions in the future. While there were some age-related differences, respondents of all ages overwhelmingly expressed support for asking SOGI questions and understood the importance of providers'' knowing their patients'' SOGI.

Conclusions

Given current deliberations within national health care regulatory bodies and the government''s increased attention to LGBT health disparities, the finding that patients can and will answer SOGI questions has important implications for public policy. This study provides evidence that integrating SOGI data collection into the meaningful use requirements is both acceptable to diverse samples of patients, including heterosexuals, and feasible.     

Opposite-polarity motors activate one another to trigger cargo transport in live cells

Intracellular transport is typically bidirectional, consisting of a series of back and forth movements. Kinesin-1 and cytoplasmic dynein require each other for bidirectional transport of intracellular cargo along microtubules; i.e., inhibition or depletion of kinesin-1 abolishes dynein-driven cargo transport and vice versa. Using Drosophila melanogaster S2 cells, we demonstrate that replacement of endogenous kinesin-1 or dynein with an unrelated, peroxisome-targeted motor of the same directionality activates peroxisome transport in the opposite direction. However, motility-deficient versions of motors, which retain the ability to bind microtubules and hydrolyze adenosine triphosphate, do not activate peroxisome motility. Thus, any pair of opposite-polarity motors, provided they move along microtubules, can activate one another. These results demonstrate that mechanical interactions between opposite-polarity motors are necessary and sufficient for bidirectional organelle transport in live cells.     

Social transmission of fear in rats: the role of 22-kHz ultrasonic distress vocalization

Background

Social alarm calls alert animals to potential danger and thereby promote group survival. Adult laboratory rats in distress emit 22-kHz ultrasonic vocalization (USV) calls, but the question of whether these USV calls directly elicit defensive behavior in conspecifics is unresolved.

Methodology/Principal Findings

The present study investigated, in pair-housed male rats, whether and how the conditioned fear-induced 22-kHz USVs emitted by the ‘sender’ animal affect the behavior of its partner, the ‘receiver’ animal, when both are placed together in a novel chamber. The sender rats’ conditioned fear responses evoked significant freezing (an overt evidence of fear) in receiver rats that had previously experienced an aversive event but not in naïve receiver rats. Permanent lesions and reversible inactivations of the medial geniculate nucleus (MGN) of the thalamus effectively blocked the receivers’ freeezing response to the senders'' conditioned fear responses, and this occurred in absence of lesions/inactivations impeding the receiver animals'' ability to freeze and emit 22-kHz USVs to the aversive event per se.

Conclusions/Significance

These results—that prior experience of fear and intact auditory system are required for receiver rats to respond to their conspecifics'' conditioned fear responses—indicate that the 22-kHz USV is the main factor for social transmission of fear and that learning plays a crucial role in the development of social signaling of danger by USVs.     

A Clinical Index to Predict Progression from Mild Cognitive Impairment to Dementia Due to Alzheimer's Disease

Background

Mild cognitive impairment is often a precursor to dementia due to Alzheimer''s disease, but many patients with mild cognitive impairment never develop dementia. New diagnostic criteria may lead to more patients receiving a diagnosis of mild cognitive impairment.

Objective

To develop a prediction index for the 3-year risk of progression from mild cognitive impairment to dementia relying only on information that can be readily obtained in most clinical settings.

Design and Participants

382 participants diagnosed with amnestic mild cognitive impairment enrolled in the Alzheimer''s Disease Neuroimaging Initiative (ADNI), a multi-site, longitudinal, observational study.

Main Predictors Measures

Demographics, comorbid conditions, caregiver report of participant symptoms and function, and participant performance on individual items from basic neuropsychological scales.

Main Outcome Measure

Progression to probable Alzheimer''s disease.

Key Results

Subjects had a mean (SD) age of 75 (7) years and 43% progressed to probable Alzheimer''s disease within 3 years. Important independent predictors of progression included being female, resisting help, becoming upset when separated from caregiver, difficulty shopping alone, forgetting appointments, number of words recalled from a 10-word list, orientation and difficulty drawing a clock. The final point score could range from 0 to 16 (mean [SD]: 4.2 [2.9]). The optimism-corrected Harrell''s c-statistic was 0.71(95% CI: 0.68–0.75). Fourteen percent of subjects with low risk scores (0–2 points, n = 124) converted to probable Alzheimer''s disease over 3 years, compared to 51% of those with moderate risk scores (3–8 points, n = 223) and 91% of those with high risk scores (9–16 points, n = 35).

Conclusions

An index using factors that can be obtained in most clinical settings can predict progression from amnestic mild cognitive impairment to probable Alzheimer''s disease and may help clinicians differentiate between mild cognitive impairment patients at low vs. high risk of progression.