Genome-wide characterization of the GRF family and their roles in response to salt stress in Gossypium.

BACKGROUND: Cotton (Gossypium spp.) is the most important world-wide fiber crop but salt stress limits cotton production in coastal and other areas. Growth regulation factors (GRFs) play regulatory roles in response to salt stress, but their roles have not been studied in cotton under salt stress. RESULTS: We identified 19 GRF genes in G. raimondii, 18 in G. arboreum, 34 in G. hirsutum and 45 in G. barbadense, respectively. These GRF genes were phylogenetically analyzed leading to the recognition of seven GRF clades. GRF genes from diploid cottons (G. raimondii and G. arboreum) were largely retained in allopolyploid cotton, with subsequent gene expansion in G. barbadense relative to G. hirsutum. Most G. hirsutum GRF (GhGRF) genes are preferentially expressed in young and growing tissues. To explore their possible role in salt stress, we used qRT-PCR to study expression responses to NaCl treatment, showing that five GhGRF genes were down-regulated in leaves. RNA-seq experiments showed that seven GhGRF genes exhibited decreased expression in leaves under NaCl treatment, three of which (GhGRF3, GhGRF4, and GhGRF16) were identified by both RNA-seq and qRT-PCR. We also identified six and three GRF genes that exhibit decreased expression under salt stress in G. arboreum and G. barbadense, respectively. Consistent with its lack of leaf withering or yellowing under the salt treatment conditions, G. arboreum had better salt tolerance than G. hirsutum and G. barbadense. Our results suggest that GRF genes are involved in salt stress responses in Gossypium. CONCLUSION: In summary, we identified candidate GRF genes that were involved in salt stress responses in cotton.

The miR319-Targeted GhTCP4 Promotes the Transition from Cell Elongation to Wall Thickening in Cotton Fiber.

Plant cell growth involves a complex interplay among cell-wall expansion, biosynthesis, and, in specific tissues, secondary cell wall (SCW) deposition, yet the coordination of these processes remains elusive. Cotton fiber cells are developmentally synchronous, highly elongated, and contain nearly pure cellulose when mature. Here, we report that the transcription factor GhTCP4 plays an important role in balancing cotton fiber cell elongation and wall synthesis. During fiber development the expression of miR319 declines while GhTCP4 transcript levels increase, with high levels of the latter promoting SCW deposition. GhTCP4 interacts with a homeobox-containing factor, GhHOX3, and repressing its transcriptional activity. GhTCP4 and GhHOX3 function antagonistically to regulate cell elongation, thereby establishing temporal control of fiber cell transition to the SCW stage. We found that overexpression of GhTCP4A upregulated and accelerated activation of the SCW biosynthetic pathway in fiber cells, as revealed by transcriptome and promoter activity analyses, resulting in shorter fibers with varied lengths and thicker walls. In contrast, GhTCP4 downregulation led to slightly longer fibers and thinner cell walls. The GhHOX3-GhTCP4 complex may represent a general mechanism of cellular development in plants since both are conserved factors in many species, thus providing us a potential molecular tool for the design of fiber traits.

Dexamethasone decreases cholestatic liver injury via inhibition of intrinsic pathway with simultaneous enhancement of mitochondrial biogenesis.

BACKGROUND: Mitochondria are known to be involved in cholestatic liver injury. We tested the hypothesis that glucocorticoids can modulate mitochondrial function to alleviate cholestatic liver injury. METHODS: A rat model of cholestasis was established by bile duct ligation (BDL), with a sham group receiving laparotomy without BDL, and a group receiving dexamethasone (DEX) treatment after BDL. RESULTS: The liver function including total bilirubin levels, alanine transaminase and aspartate transaminase activities was significantly improved in the DEX treatment group in comparison to the BDL group. There was a significant upregulation of liver peroxisome proliferator-activated receptor γ coactivator-1α and mitochondrial transcriptional factor A protein between 6 and 72 h was found in the DEX group. DEX treatment significantly down-regulated Bax, caspase 9 and caspase 3 expression induced by BDL at 24-72 h, but had little effect on the expression of caspase 8, Bcl(2,) Fas and Fas-FasL complex. Consequently, the number of apoptotic liver cells in the DEX group was significantly less than in the BDL group at 72 h. CONCLUSION: Our results indicate that glucocorticoids decreases cholestatic liver injury within hours after BDL. Early glucocorticoids treatment can enhance the mitochondrial biogenesis and modulate the intrinsic but not extrinsic pathway of apoptosis following BDL.

Cavernous malformations of the central nervous system combined with cutaneous vascular lesions due to KRIT1 mutation: a case report.

Cavernous malformations (CMs) of the central nervous system can occur in a sporadic condition or as a familial form with an autosomal-dominant inherited pattern. Apart from a family history, some clinical features may help to identify familial CMs. We demonstrate clinical, neuroradiological, pathological, and genetic data of a patient with cerebral and spinal CMs. The presence of multiple cerebral CMs and distinct cutaneous vascular lesions, including hyperkeratotic cutaneous capillary-venous malformations, in this patient suggested familial CMs. A genetic study confirmed a nonsense mutation (c.1708A>T) in the KRIT1 gene.

Clinicopathological characteristics and prognosis of patients with small intestinal stromal tumors.

BACKGROUND AND PURPOSE: Gastrointestinal stromal tumors (GISTs) involving the small intestine are less common than those involving the stomach, and data on small intestinal stromal tumors (SISTs) are more limited. This study investigated the clinicopathological characteristics and prognostic factors of SISTs and compared them with those of gastric stromal tumors (GSTs). METHODS: A total of 82 surgically resected and pathologically diagnosed smooth muscle tumors of small bowel in patients treated from January 1986 to December 2000 were included. Immunohistochemical studies were performed on these tumors with antibodies of CD117, CD34, smooth muscle actin (SMA), desmin and S-100. The results were analyzed and compared with 74 cases of GSTs diagnosed and treated from January 1986 to December 1997. RESULTS: Among the 82 small intestine tumors, 71 were CD117-positive (86.6%) and were classified as SISTs. Of the 71 SISTs, 70.4% were immunoreactive to CD34, 88.7% to SMA, 46.5% to S-100, but none to desmin. Survival analysis demonstrated that tumor size < 5 cm (p = 0.021), mitosis number < 5/50 high-power field (p < 0.001), SMA-positive (p = 0.027), non-epithelioid cell type (p = 0.005) and tumor with skeinoid fibers (p = 0.010) predicted longer disease-free survival after operation. Multivariate analysis revealed that mitotic number (p = 0.001), cell morphology (p = 0.031) and tumor size (p = 0.004) were independent prognostic factors. In comparison to GSTs, SISTs exhibited significantly lower rates of CD34, but significantly higher rates of SMA and S-100 immunoreactivity. CONCLUSIONS: SISTs exhibited a different immunophenotype from GSTs. SMA reactivity is a predictor of benign clinical behavior in SISTs. Tumor mitotic numbers, tumor size, and cell type were independent prognostic factors for patients with SISTs after operation.

Expression, by functional proteomics, of spontaneous tolerance in rat orthotopic liver transplantation.

Orthotopic liver transplants (OLT) performed in certain combinations of donor and recipient rat strains, such as DA (RT1a) to PVG (RT1c), without immunosuppressive drugs could completely overcome major histocompatibility complex barriers. Although other organs transplanted in a similar fashion within the same combination have been promptly rejected, 60 day post-OLT serum (POD 60) has been proven competent in rapidly reversing the established rejection in animal models. In order to understand the functional role of tolerogenic serum proteins and their involvement with immune response regulation, a comprehensive analysis surveying global changes in complex OLT systems by proteomic techniques was applied. The results display the varying protein expressions in sera extracted from naïve and transplanted animals on POD 60 with regard to immunosuppression. Among these proteins, haptoglobin (Hp) which is related to inhibition of T-cell proliferation was found to be up-regulated following OLT. In addition, the transcriptional expression level and intracellular localization of Hp correlated with the immune events. Hp also exhibited a strong in vitro immunosuppressive effect on the mixed lymphocyte reaction. In conclusion, the presence of Hp may play an important role in modulating the spontaneous tolerance of liver transplantation. Furthermore, the serum proteome map could provide guidance with respect to discovering potential protein targets in OLT tolerance and eventually prolong hepatic allograft survival in the future.