Efficacy of a Culturally Tailored Therapeutic Intervention Program for Community Dwelling Depressed Korean American Women: A Non-Randomized Quasi-Experimental Design Study.

BACKGROUND: Asian American women are more prone to suffer from depression compared to their non-Asian American counterparts and have lower rates of seeking mental healthcare services due to lack of available culturally appropriate therapies. Two prior studies of a culturally tailored therapeutic intervention called LogoAutobiography were helpful in treating depressed Korean American women. The LogoAutobiography program was revised to enhance its efficacy not only for depressive symptoms and purpose in life but also to increase coping strategies. OBJECTIVES: To test the efficacy of the Enhanced LogoAutobiography program on depressive symptoms, purpose in life, and coping strategies of depressed community-dwelling Korean American women. DESIGN: Two-group, non-randomized quasi-experimental design. SETTINGS: Local Korean community areas located in New York City and eastern New Jersey of the United States. PARTICIPANTS: A total of 54 depressed women with Korean heritage completed either experimental group (n1=25) or control group (n2=29). Sample inclusion criteria were adult women with Korean heritage, depressive symptoms as measured by a CES-D score 16 or higher, fluent Korean language, and able to participate independently. Sample exclusion criteria were those who presented active suicidal ideation and history of episodes of mania or psychosis screened by the psychosocial survey questionnaire. METHODS: The experimental group received Enhanced Logo-Autobiography program which was guided by a facilitator who used a manualized intervention for 90minute sessions over 8weeks; the control group attended routine weekly community activities. Data were collected during the first session (pretest), the end of 8weeks (posttest), and the 3months follow-up session. Time and group changes in depressive symptoms, purpose in life, and coping strategies were computed using Repeated Measures General Linear Model (RMGLM). RESULTS: Findings suggested that the experimental group showed greater improvement in depressive symptoms (F=6.94 (2, 88), p<0.01), active cognitive coping (F=5.07 (2, 86), p<0.01), and avoidance coping strategies (F=3.48 (2, 86), p<0.05) compared to the control group during the three time intervals. Purpose in life showed statistically significant Time and Group effects (F=5.18 (2, 88), p<0.01; F=9.44 (2, 88), p<0.01, respectively), but no significant interaction effect of Time and Group was detected. CONCLUSION: These findings suggest that enhanced LogoAutobiography is effective for depressive symptoms and coping strategies and somewhat effective for improving purpose in life for depressed Korean American women.

A rice orthologue of the ABA receptor, OsPYL/RCAR5, is a positive regulator of the ABA signal transduction pathway in seed germination and early seedling growth.

Abscisic acid (ABA) is a phytohormone that positively regulates seed dormancy and stress tolerance. PYL/RCARs were identified an intracellular ABA receptors regulating ABA-dependent gene expression in Arabidopsis thaliana. However, their function in monocot species has not been characterized yet. Herein, it is demonstrated that PYL/RCAR orthologues in Oryza sativa function as a positive regulator of the ABA signal transduction pathway. Transgenic rice plants expressing OsPYL/RCAR5, a PYL/RCAR orthologue of rice, were found to be hypersensitive to ABA during seed germination and early seedling growth. A rice ABA signalling unit composed of OsPYL/RCAR5, OsPP2C30, SAPK2, and OREB1 for ABA-dependent gene regulation was further identified, via interaction assays and a transient gene expression assay. Thus, a core signalling unit for ABA-responsive gene expression modulating seed germination and early seedling growth in rice has been unravelled. This study provides substantial contributions toward understanding the ABA signal transduction pathway in rice.

Phosphorylation-mediated regulation of a rice ABA responsive element binding factor.

OREB1 is a rice ABRE binding factor characterized by the presence of multiple highly-conserved phosphorylation domains (C1, C2, C3, and C4) and two kinase recognition motifs, RXXS/T and S/TXXE/D, within different functional domains. An in vitro kinase assay showed that OREB1 is phosphorylated not only by the SnRK2 kinase, but also by other Ser/Thr protein kinases, such as CaMKII, CKII, and SnRK3. Furthermore, the N-terminal phosphorylation domain C1 was found to be differentially phosphorylated by the SnRK2/SnRK3 kinase and by hyperosmotic/cold stress, suggesting that the C1 domain may function in decoding different signals. The phosphorylation-mediated regulation of OREB1 activity was investigated through mutation of the SnRK2 recognition motif RXXS/T within each phosphorylation module. OREB1 contains a crucial nine-amino acid transactivation domain located near the phosphorylation module C1. Deletion of the C1 domain increased OREB1 activity, whereas mutation of Ser 44, Ser 45, and Ser 48 of the C1 domain to aspartates decreased OREB1 activity. In the C2 domain, a double mutation of Ser 118 and Ser 120 to alanines suppressed OREB1 activity. These findings strongly suggest that selective phosphorylation of the C1 or C2 modules may positively or negatively regulate OREB1 transactivation. In addition, mutation of Ser 385 of the C4 domain to alanines completely abolished the interaction between OREB1 and a rice 14-3-3 protein, GF14d, suggesting that SnRK2-mediated phosphorylation may regulate this interaction. These results indicate that phosphorylation domains of OREB1 are not functionally redundant and regulate at least three different functions, including transactivation activity, DNA binding, and protein interactions. The multisite phosphorylation of OREB1 is likely a key for the fine control of its activity and signal integration in the complex stress signaling network of plant cells.

The MYB96 transcription factor mediates abscisic acid signaling during drought stress response in Arabidopsis.

Plant adaptive responses to drought are coordinated by adjusting growth and developmental processes as well as molecular and cellular activities. The root system is the primary site that perceives drought stress signals, and its development is profoundly affected by soil water content. Various growth hormones, particularly abscisic acid (ABA) and auxin, play a critical role in root growth under drought through complex signaling networks. Here, we report that a R2R3-type MYB transcription factor, MYB96, regulates drought stress response by integrating ABA and auxin signals. The MYB96-mediated ABA signals are integrated into an auxin signaling pathway that involves a subset of GH3 genes encoding auxin-conjugating enzymes. A MYB96-overexpressing Arabidopsis (Arabidopsis thaliana) mutant exhibited enhanced drought resistance with reduced lateral roots. In the mutant, while lateral root primordia were normally developed, meristem activation and lateral root elongation were suppressed. In contrast, a T-DNA insertional knockout mutant was more susceptible to drought. Auxin also induces MYB96 primarily in the roots, which in turn induces the GH3 genes and modulates endogenous auxin levels during lateral root development. We propose that MYB96 is a molecular link that mediates ABA-auxin cross talk in drought stress response and lateral root growth, providing an adaptive strategy under drought stress conditions.