Circulating microRNAs -192 and -194 are associated with the presence and incidence of diabetes mellitus

We sought to identify circulating microRNAs as biomarkers of prevalent or incident diabetes. In a pilot study of 18 sex- and age-matched patients with metabolic syndrome, nine of whom developed diabetes during 6 years of follow-up, an array of 372 microRNAs discovered significantly elevated serum levels of microRNAs -122, -192, -194, and -215 in patients who developed diabetes mellitus type 2 (T2DM). In two cross-sectional validation studies, one encompassing sex- and age-matched groups of patients with T2DM, impaired fasting glucose (IFG) and euglycemic controls (n = 43 each) and the other 53 patients with type 1 diabetes and 54 age- and BMI-matched euglycemic controls, serum levels of miR-192, miR-194, and mi215 were significantly higher in diabetic subjects than in probands with euglycemia or IFG. In a longitudinal study of 213 initially diabetes-free patients of whom 35 developed diabetes during 6 years of follow-up, elevated serum levels of microRNAs 192 and 194 were associated with incident T2DM, independently of fasting glucose, HbA1c and other risk factors. Serum levels of miR-192 and miR-194 were also elevated in diabetic Akt2 knockout mice compared to wild type mice. In conclusion, circulating microRNAs -192 and -194 are potential biomarkers for risk of diabetes.

Quantification of diffusivities of the human cervical spinal cord using a 2D single-shot interleaved multisection inner volume diffusion-weighted echo-planar imaging technique

BACKGROUND AND PURPOSE

DTI is a highly sensitive technique, which can detect pathology not otherwise noted with conventional imaging methods. This paper provides the atlas of reliable normative in vivo DTI parameters in the cervical spinal cord and its potential applications toward quantifying pathology.

MATERIALS AND METHODS

In our study, we created a reference of normal diffusivities of the cervical spinal cord by using a 2D ss-IMIV-DWEPI technique from 14 healthy volunteers and compared parameters with those in 8 patients with CSM. The 2D ss-IMIV-DWEPI technique was applied in each subject to acquire diffusion-weighted images. FA, lambda( parallel), and lambda( perpendicular) were calculated. A reference of normal DTI indices from 12 regions of interest was created and compared with DTI indices of 8 patients.

RESULTS

A map of reference diffusivity values was obtained from healthy controls. We found statistically significant differences in diffusivities between healthy volunteers and patients with CSM with different severities of disease, by using FA, lambda( parallel), and lambda( perpendicular) values.

CONCLUSIONS

DTI using 2D ss-IMIV-DWPEI is sensitive to spinal cord pathology. This technique can be used to detect and quantify the degree of pathology within the cervical spinal cord from multiple disease states.

Diffusion tensor imaging of ex vivo cervical spinal cord specimens: the immediate and long-term effects of fixation on diffusivity

Diffusion tensor imaging (DTI) is an emerging noninvasive method for evaluating tissue microstructure, but is highly susceptible to in vivo motion artifact. Ex vivo experiments on fixed tissues are needed to improve DTI techniques, which require fixed tissue specimens. Several efforts have been made to study the effect of fixation on both human and mouse tissue, with varying results. Four human cervical cords and three segments of pig cervical spinal cord specimens were imaged both before and after tissue fixation using 3D multishot diffusion weighted imaging (ms-DWEPI). Fixation caused a significant decrease in the longitudinal diffusivity whereas the relative anisotropy (RA) and radial diffusivity remained unaffected. Additionally, once adequately preserved, the diffusivity parameters of fixed tissue remain constant over time. Fixation has important effects on the diffusivity of tissue specimens. These findings have important implications for the determination of tissue microstructure and function using DTI technologies.

Thymic microenvironment: selective activities of soluble and insoluble components

Two components of the thymic microenvironment have been separated, and their biological properties have been studied. The first component, soluble thymic factor (STF), after injection into syngeneic recipients, provoked a temporary decrease in thymic weight on day 7, concomitant with an increase in the level of T cells in lymph nodes (but not in the spleen), followed by a general hypertrophy of lymph nodes peaking on day 21. In contrast, after the injection of the second component, insoluble thymic fraction (ITF), there was an increase in the number of prothymocytes in the thymic subcapsulary cortex, followed by general thymic hypertrophy on days 14 and 21. STF is believed to trigger a selective migration of lymph-node-seeking T cells from the thymus, whereas ITF seems to play a role in the differentiation step preceding that imparted by STF.

The yeast KEX-2-processing endoprotease is active in the Golgi apparatus of transfected NIH 3T3 fibroblasts

Proteolytic processing of polyprotein precursors at pairs of basic amino acids is a prerequisite for the generation of bioactive peptide hormones. While the mammalian endoproteases responsible for these cleavages are yet to be identified, this function has been unequivocally assigned in yeast to the product of the KEX-2 gene. To study the molecular mechanisms involved in polyprotein processing, we have transfected the yeast KEX-2 gene into mouse NIH 3T3 fibroblasts and established a new cell line (called 2N-DK) where the KEX-2 endoprotease is permanently expressed. Immunofluorescence studies show that the KEX-2 enzyme is retained within the Golgi of the 2N-DK cells. The evidence for this cellular location is supported by measurement of intracellular and extracellular KEX-2 enzyme activity. In this permanently transfected cell line, KEX-2 activity is exclusively intracellular, in contrast to the situation previously described in transiently infected cell lines, where extracellular KEX-2 activity was detected. Furthermore, infection of 2N-DK cells with a recombinant retrovirus expressing a cDNA coding for porcine proopiomelanocortin (POMC) resulted in the synthesis of POMC and its efficient processing into beta-lipotropin and beta-endorphin, two of its physiologically authentic maturation products. These results suggest that in the fibroblast cell line 2N-DK, proteolytic processing of POMC by KEX-2 endoprotease occurs in the Golgi apparatus.

Intracellular proteolytic processing of proopiomelanocortin in heterologous COS-1 cells by the yeast KEX2 endoprotease

We have transiently expressed the yeast KEX2 gene together with the proopiomelanocortin (POMC) cDNA in COS-1 cells. Characterization of the POMC-related immunoreactive peptides by gel permeation and reversed-phase high pressure liquid chromatography showed that the KEX2 enzyme was active and capable of carrying out cleavage of POMC to release the authentic maturation product beta-endorphin(1-31). Peptides resembling beta-lipotropin, the amino terminal glycopeptide, and ACTH(1-39) were also detected as major products in the cell extracts. Our results indicate that the KEX2 enzyme can proteolytically release from POMC a set of peptides similar to that normally found in interior pituitary.

Site-specific mutagenesis identifies amino acid residues critical in prohormone processing

Peptide hormones are generally synthesized as inactive higher mol. wt precursors. Processing of the prohormone into biologically active peptides by specific proteolytic cleavages occurs most often at pairs of basic amino acids but also at single arginine residues. To study the role of protein secondary structure in this process, we used site-directed mutagenesis to modify the predicted secondary structure around the cleavage sites of human prosomatostatin and monitored the processing of the precursor after introduction of the mutated cDNAs in Neuro2A cells. Amino acid substitutions were introduced that affected the possibility of forming beta-turn structures in the immediate vicinity of the somatostatin-28 (S-28) and somatostatin-14 (S-14) cleavage sites. Infection of Neuro2A cells with a retrovirus carrying a human somatostatin cDNA resulted in the expression of prosomatostatin and its processing into S-28 and S-14, indicating that these cells have the necessary enzymes to process prohormone at both single and paired amino acid residues. Disruption of the different beta-turns had various effects on prosomatostatin processing: substitution of Ala for Pro-5 drastically decreased prosomatostatin processing and replacement of Pro-9 by Ala led to the accumulation of the intermediate maturation product [Arg-2Lys-1]-S-14. In contrast, substitution of Ala for Asn-12, Gly+2 and Cys+3 respectively had only very little effect on the proteolytic processing of prosomatostatin. Our results show that amino acids other than the basic amino acid residues are required to define the cleavage sites for prohormone proteolytic processing and suggest that higher orders of protein structure are involved in substrate recognition by the endoproteases.

Targeting and processing of pro-opiomelanocortin in neuronal cell lines

Pro-opiomelanocortin (POMC) is the precursor to several pituitary hormones including adrenocorticotropic hormone and beta-endorphin (beta-END). POMC is also expressed in the brain, predominantly in discrete neuronal cell populations of the hypothalamus. In the pituitary and brain, POMC undergoes tissue-specific proteolysis to release different bioactive peptides. POMC processing in neuronal cell lines was studied after infection of PC12 and Neuro2A cells with a recombinant retrovirus carrying the porcine POMC cDNA. Our results indicate that both cell lines synthesize and target POMC to the regulated secretory pathway. Only the Neuro2A cells, however, can achieve proteolytic processing of POMC. Chromatographic and immunological characterization of the POMC-related material showed that beta-lipotropin (beta-LPH) and nonacetylated beta-END(1-31) are major maturation products of POMC in these cells. Release of both beta-LPH and beta-END(1-31) from infected Neuro2A cells can be stimulated by secretagogues in a calcium-dependent manner. Taken together, our results suggest that the cellular machinery of Neuro2A cells can recognize a foreign prohormone, target it to neurosecretory vesicles, process it into biologically active peptides, and secrete it in a manner characteristic to peptidergic neurons.

Expression of porcine pro-opiomelanocortin cDNA in an established fibroblastic cell line: constitutive secretion of the precursor without proteolytic processing

Pro-opiomelanocortin (POMC) is the common precursor of several pituitary hormones including alpha-melanotropic hormone, adrenocorticotropic hormone, beta-lipotropin and beta-endorphin. The porcine POMC cDNA was inserted downstream from the late promoter of an SV40-derived expression vector and co-transfected in NIH 3T3 cells with a marker plasmid carrying the neomycin resistance gene. Colonies resistant to the neomycin analog G418 were selected and analyzed for the production of POMC-related peptides by radioimmunoassay. Three clones were found to produce from 350 to 1750 pg of POMC-related peptides per 10(6) cells in 16 h and selected for further analysis. The number of POMC cDNA copies integrated in the host cell genome was determined and the levels of transcription were compared. POMC-related material released in the culture medium by the best producing clone (NJP 4-4) was further analyzed by gel filtration and reversed-phase high-pressure liquid chromatography combined with radioimmunoassays. POMC was found to be synthesized and secreted without further processing or degradation. Negligible amounts of POMC-immunoreactive species were found in cellular extracts indicating that the prohormone is secreted from the NIH 3T3 cells without storage, presumably through a constitutive pathway. Our results suggest that NIH 3T3 fibroblasts do not contain the enzymatic machinery to process complex precursors such as POMC.

Expression of porcine pro-opiomelanocortin cDNA in heterologous monkey kidney cells. Biosynthesis and secretion of the prohormone without processing

Pro-opiomelanocortin is the common precursor to several pituitary hormones. These include alpha-melanotropic hormone, adrenocorticotropic hormone, beta-lipotropic hormone, and beta-endorphin. The porcine pro-opiomelanocortin cDNA was inserted downstream from the early promoter of a SV40-derived expression vector and transfected into the monkey kidney COS-1 cells. Transient expression of the pro-opiomelanocortin cDNA was observed between 48 and 70 h after transfection. Analysis of pro-opiomelanocortin-related material in COS-1 cell extracts and culture medium revealed that these cells synthesize and secrete constitutively pro-opiomelanocortin without further processing into its mature hormones. Our results suggest that COS-1 cells do not contain the necessary enzymatic machinery to process complex precursors such as pro-opiomelanocortin.

Regluating factors in helper T-cell maturation

The effect of soluble and insoluble thymic fractions (STF and ITF, respectively) on the antibody response to sheep red blood cells (SRBC) was tested at different times after injection in mice. In normal mice, a temporary increase in the number of plaque forming cells (PFCs) was observed after injecting either ITF and STF, this increase being more prolonged when both fractions were injected together. In thymectomized, lethally irradiated mice repopulated with syngeneic untreated bone marrow, full reconstitution of T helper function was achieved only if both ITF and SFT were injected, partial reconstitution being obtained when either of these fractions was administered alone. In thymectomized, lethally irradiated mice repopulated with T-depleted bone marrow, reconstitution of the T helper function was only achieved when both ITF and SFT were administered. These results show that ITF and STF together constitute all the essential elements of the thymic microenvironment necessary to support the entire differentiation process of prethymic precurosors into helper T cells.

Induction by thymic fractions of T cell subsets capable of modulating GVHR intensity

Two thymic stromal fractions previously shown to have specific enhancing effects on anatomically distinct T cell populations were tested for their capacity to induce functionally distinct T cell subsets. Parental mice were injected with either soluble thymic fraction (STF) or insoluble thymic fraction (ITF), and their lymphoid cells were harvested 11 days later. It was shown that ITF elicited a splenic corticosensitive T cell subset endowed with enhanced graft-versus-host reaction (GVHR)-inducing capacity. On the other hand, STF increased, mainly in lymph nodes, the number of corticoresistant T cells significantly less active in GVHR. Furthermore, lymphocytes from ITF-treated parental donors could become corticoresistant with reduced GVHR activity after a 1-hr in vitro incubation with STF. We have thus shown that two different elements of the thymic microenvironment could modulate the intensity of the GVHR by modifying the equilibrium between two T cell subsets. These are believed to represent two consecutive differentiation stages.

[Role of an insoluble thymus fraction in the differentiation of T lymphocytes]

An insoluble thymic fraction, free of both thymocytes and thymic hormone, was injected intraperitoneally to C57B1/6 mice. Following this injection, marked changes were noted in thymocyte populations: these consisted mainly in a significant increase of subcapsular prothymocytes, peaking at day 7. These observations were made by histological examination and confirmed by a study of physical characteristics of thymocyte populations. The possibility that this insoluble thymic fraction might have a biologically active component responsible for prothymocytes recruitment is examined.

[The role of thymic microenvironment in T-cell maturation]

The role played by different components of thymic microenvironment in T-cell-maturation is examined: antibodies to a soluble thymic factor (STF) were thus shown to inhibit T-cell maturation in the chicken while incubation of bursal "null" cells with STF could induce the differentiation of some of them into T cells. In addition to STF, whose properties resemble those of other soluble thymic factors, an insoluble thymic factor (ITF) is described: it is localized mainly in membranes associated with medullary blood vessels, and its injection to mice provokes an influx of marrow stem cells into the thymus.