A bottom-up definition of self-sufficiency: Voices from low-income jobseekers.

Self-sufficiency (SS) is the epitome of America’s ‘reluctant’welfare state. It is generally accepted in social welfare policycircles as a concept related to independence and financialstability. Nevertheless, SS is not a term agreed upon inpractice by policymakers, researchers, or service providersand is frequently used without a clear common definition.In this sense, the purpose of this study is to explore the extentto which the top-down definition of ‘economic’ SS as thesocial policy goal is consistent with how the clients of job training programs perceive the term. Using a groundedtheory approach, a bottom-up definition of SS was derivedfrom a focus group of low-income jobseekers. The focusgroup was transcribed for a content analysis from which a client-centered definition of SS was drawn. Findings suggestthat SS is a process of developing psychological strength properties and a goal-oriented progression toward realistic financial outcomes.Implications for evidence-based community interventions for client empowerment and workforce development are suggested

CD56negCD16+NK cells are activated mature NK cells with impaired effector function during HIV-1 infection

BACKGROUND: A subset of CD3(neg)CD56(neg)CD16(+) Natural Killer (NK) cells is highly expanded during chronic HIV-1 infection. The role of this subset in HIV-1 pathogenesis remains unclear. The lack of NK cell lineage-specific markers has complicated the study of minor NK cell subpopulations. RESULTS: Using CD7 as an additional NK cell marker, we found that CD3(neg)CD56(neg)CD16(+) cells are a heterogeneous population comprised of CD7(+) NK cells and CD7(neg) non-classical myeloid cells. CD7(+)CD56(neg)CD16(+) NK cells are significantly expanded in HIV-1 infection. CD7(+)CD56(neg)CD16(+) NK cells are mature and express KIRs, the C-type lectin-like receptors NKG2A and NKG2C, and natural cytotoxicity receptors similar to CD7(+)CD56(+)CD16(+) NK cells. CD7(+)CD56(neg) NK cells in healthy donors produced minimal IFNγ following K562 target cell or IL-12 plus IL-18 stimulation; however, they degranulated in response to K562 stimulation similar to CD7(+)CD56(+) NK cells. HIV-1 infection resulted in reduced IFNγ secretion following K562 or cytokine stimulation by both NK cell subsets compared to healthy donors. Decreased granzyme B and perforin expression and increased expression of CD107a in the absence of stimulation, particularly in HIV-1-infected subjects, suggest that CD7(+)CD56(neg)CD16(+) NK cells may have recently engaged target cells. Furthermore, CD7(+)CD56(neg)CD16(+) NK cells have significantly increased expression of CD95, a marker of NK cell activation. CONCLUSIONS: Taken together, CD7(+)CD56(neg)CD16(+) NK cells are activated, mature NK cells that may have recently engaged target cells

Neurogenomic Signatures of Spatiotemporal Memories in Time-Trained Forager Honey Bees

Honey bees can form distinct spatiotemporal memories that allow them to return repeatedly to different food sources at different times of day. Although it is becoming increasingly clear that different behavioral states are associated with different profiles of brain gene expression, it is not known whether this relationship extends to states that are as dynamic and specific as those associated with foraging-related spatiotemporal memories. We tested this hypothesis by training different groups of foragers from the same colony to collect sucrose solution from one of two artificial feeders; each feeder was in a different location and had sucrose available at a different time, either in the morning or afternoon. Bees from both training groups were collected at both the morning and afternoon training times to result in one set of bees that was undergoing stereotypical food anticipatory behavior and another that was inactive for each time of day. Between the two groups with the different spatiotemporal memories, microarray analysis revealed that 1329 genes were differentially expressed in the brains of honey bees. Many of these genes also varied with time of day, time of training or state of food anticipation. Some of these genes are known to be involved in a variety of biological processes, including metabolism and behavior. These results indicate that distinct spatiotemporal foraging memories in honey bees are associated with distinct neurogenomic signatures, and the decomposition of these signatures into sets of genes that are also influenced by time or activity state hints at the modular composition of this complex neurogenomic phenotype