Alternative Splicing ; Computational Biology ; Humans ; Organ Specificity

Development of luminex-based solid phase assays enables advanced measurement of HLA antibody with sensitivity, specificity, and increasing knowledge of unacceptable antigens. In this review, we described the principle of the luminex-based assay and its current applications for organ transplantation including C1q assay, calculated panel reactive antibody, and virtual cross-matching. We also discussed the technical aspects and limitations for clinical utilization. The variables related to measurement of HLA antibody specificities and their clinical relevance remain unclear, therefore the interpretation of results requires comprehensive knowledge and clinical information in critical cases.
Antibody Specificity ; Immunoassay* ; Organ Transplantation* ; Sensitivity and Specificity ; Transplantation ; Transplants*

Although the foundations and evolution of Chinese medicine and Western medicine are very different, an increasing amount of research has revealed that those Eastern medicine principles practiced over thousands of years are confirmed by new technologies applied to the basic science of the human body. Recent scientific discoveries present enticing opportunities to reconcile Chinese medicine theories with Western biomedicine. Is there a trend toward the convergence of Eastern and Western medicine? Four studies which exemplify the potential for convergence are described in this article. The studies present findings in regard to mesentery, interstitium, a gut-lung axis, and lung-centered hematopoiesis, and were published recently in leading journals such as Science, Nature, and Lancet.
Hematopoiesis ; Humans ; Medicine, Chinese Traditional ; Meridians ; Organ Specificity

Macroautophagy is an evolutionarily conserved intracellular degradation system used by life ranging from yeasts to mammals. The core autophagic machinery is composed of ATG (autophagy-related) protein constituents. One particular member of the ATG protein family, Atg7, has been the focus of recent research. Atg7 acts as an E1-like activating enzyme facilitating both microtubule-associated protein light chain 3 (LC3)-phosphatidylethanolamine and ATG12 conjugation. Thus, Atg7 stands at the hub of these two ubiquitin-like systems involving LC3 and Atg12 in autophagic vesicle expansion. In this review, I focus on the pleiotropic function of Atg7 in development, maintenance of health, and alternations of such control in disease.
Animals ; Disease ; Growth and Development ; Humans ; Organ Specificity ; Species Specificity ; Ubiquitin-Activating Enzymes ; metabolism

PURPOSE: To evaluate the effect of rotational correlation time ((tau)R)) and the possible related changes of other parameters, (tau)M, (tau)s, and (tau)v of gadolinium (Gd) chelate on T1 relaxation enhancement in two pool model. MATERIALS AND METHODS: The NMRD (Nuclear Magnetic Relaxation Dispersion) profiles were simulated from 0.02 MHz to 800 MHz proton Larmor frequency for different values of rotational correlation times based on Solomon-Bloembergen equation for inner-sphere relaxation enhancement. To include both unbound pool (pool A) and bound pool (pool B), the relaxivity was divided by contribution from unbound pool and bound pool. The rotational correlation time for pool A was fixed at the value of 0.1 ns, which is a typical value for low molecular weight complexes such as Gd-DTPA in solution and (tau)R for pool B was changed from 0.1 ns to 20 ns to allow the slower rotation by binding to macromolecule. The fractional factor f was also adjusted from 0 to 1.0 to simulate different binding ratios to macromolecule. Since the binding of Gd-chelate to macromolecule can alter the electronic environment of Gd ion and also the degree of bulk water access to hydration site of Gd-chelate, the effects of these parameters were also included. RESULTS: The result shows that low field profiles, ranged from 0.02 to 40 MHz, are dominated by contribution from bound pool, which is bound to macromolecule regardless of binding ratios. In addition, as more Gd-chelate bound to macromolecule, sharp increase of relaxivity at higher field occurs. The NMRD profiles for different values of (tau)s show the enormous increase of low field profile whereas relaxivity at high field is not affected by (tau)s. On the other hand, the change in (tau)v does not affect low field profile but strongly influences on both inflection field and the maximum relaxivity value. The results shows a parabolic dependence of relaxivity on (tau)M. CONCLUSION: Binding of Gd-chelate to a macromolecule causes slower rotational tumbling of Gd-chelate and would result in relaxation enhancement, especially in clinical imaging field. However, binding to macromolecule can change water enchange rate ((tau)M) and electronic relaxation time (T1e) via structural deformation of electron environment and the access of bulk water to hydration site of metal-chelate. The clinical utilities of Gd-chelate bound to macromolecule are the less dose requirement, the tissue specificity, and the better perfusion and intravascular agents.
Contrast Media* ; Gadolinium ; Gadolinium DTPA ; Hand ; Molecular Weight ; Organ Specificity ; Perfusion ; Protons ; Relaxation* ; Water

BACKGROUND: Basic National Institute of Health (NIH) and sensitive antihuman globulin (AHG) methods are widely used for T-cell complement-dependent cytotoxicity crossmatch (XM) tests. Whereas NIH-negative, AHG-positive (NIH⁻/AHG⁺) results are caused by weak antibodies, NIH⁺/AHG⁻ results are usually due to autoantibodies. We found that solid organ transplantation candidates with NIH⁺/AHG⁻ XM results are repeatedly excluded from allocation of deceased donor organs by the Korean Network for Organ Sharing (KONOS) allocation system. Here, we attempted to demonstrate that these patients do not have donor-specific HLA antibodies (DSAs). METHODS: Sera showing NIH⁺/AHG⁻ results in the analysis of 1,668 KONOS T-cell XM tests were screened for panel reactive antibody (PRA) using a Luminex test. For screen-positive samples, antibody identification was conducted using a Luminex single antigen assay and the presence or absence of class I DSAs was determined. For positive controls, 42 KONOS XM tests showing probable true-positive (NIH⁻/AHG⁺ or NIH⁺/AHG⁺) results were reviewed for PRA results based on electronic medical records and the presence or absence of DSAs was determined. RESULTS: NIH⁺/AHG⁻ results were observed in 1.3% (21/1,668) of KONOS XM tests analyzed. Most of these (18/21, 85.7%) were negative for PRA or DSAs. All probable true-positive cases were either positive for DSAs (24/42, 57.1%) or had high PRA (mean, 92% [range; 42%~100%]), complicating accurate identification of antibody specificities. CONCLUSIONS: NIH⁺/AHG⁻ results are not rare (1.3%) in KONOS XM tests. Most of these results are not due to DSAs, and these patients should not be excluded from organ allocation.
Antibodies ; Antibody Specificity ; Autoantibodies* ; Electronic Health Records ; Humans ; Organ Transplantation ; T-Lymphocytes* ; Tissue Donors ; Transplants

OBJECTIVETo study the differences in a special region (SR) corresponding to five internal organs between the young and the elderly and to verify the effectiveness of a developed system for objectifying research in colour inspections of Chinese medicine (CICM).

METHODSAn image acquisition device imitating daylight to meet the requirement of CICM was designed. Image processing software based on CICM theory was developed. A total of 83 normal people were sampled and assigned to two groups. The first group (Group I) included 30 people with an average age of 24±2, and the second group (Group II) included 53 people with an average age of 74±4. After image processing, the chromaticity of 10 SRs corresponding to five internal organs was calculated. R, G, and B represent the chromaticity of color red, green, and blue, L indicates color brightness, whereas a and b denote red and yellow respectively. The difference between the young and the elderly was analyzed.

RESULTS(1) The chromaticity of each SR corresponding to five organs was obtained. The average R, G, B, L, a, and b of the sample were 194.4, 147.6, 119.3, 65.2, 15.5, and 22.3, respectively. (2) The R, G, B, and L of the young were greater than those of the elderly, but the a and b of the young were less than those of the elderly. (3) A statistically significant difference in each SR was found between the young and the elderly (P <0.05). The total differences for the Lung (Fei), Heart (Xin), Liver (Gan), Spleen (Pi), and Kidney (Shen) were 50% (3/6), 66.7% (4/6), 66.7% (4/6), 83.3% (5/6), and 91.7% (33/36), respectively. However, the Kidney SR had the greatest statistical discrepancy.

CONCLUSIONThe old Chinese saying that human Kidney deficiency worsens with age was verified by the results. The objectifying system used to examine CICM was effective. Thus, this system may be used as a basis for further research.

Aged ; Color ; Female ; Humans ; Male ; Medicine, Chinese Traditional ; Organ Specificity ; Probability ; Young Adult

OBJECTIVETo examine the expression patterns of short palate, lung and nasal epithelium clone 1 (SPLUNC1) gene in human tissues.

METHODSIn situ hybridization was used to detect the expression of SPLUNC1 gene in 37 different human tissues.

RESULTSWe found that SPLUNC1 gene was not expressed in squamous epithelial cells of the palate, epidermis, esophagus, or the esophagus-cardia junction, metaplastic squamous cells in the nasopharynx, trachea, or uterus cervix, or tumor cells of esophageal squamous cell carcinoma or lung squamous cell carcinoma. SPLUNC1 gene was not expressed in the single layer columnar epithelia cells in the stomach, gallbladder, jejunum, colon, endometrium, or uterus cervix. SPLUNC1 expression was detected mainly in pseudostratified columnar epithelial cells in the nasopharynx, trachea and bronchi, and was gradually down-regulated from the upper to lower end of the respiratory tract, but was not detected in the lung tissues. SPLUNC1 expression was detected not only in the duct and serous gland cells in the parotid and submandibular glands, but also in cells of submucosal serous glands in the nasopharynx and lung, but not in the cells of the mucosal glands. The parietal cells of the gastric submucosa and epithelial cells of the lobula and ducts of the mammary glands expressed SPLUNC1. The adenocarcinoma cells in the lung, stomach, colon, mammary gland, uterus endometrium and cervix showed strong expressions of SPLUNC1 gene.

CONCLUSIONSPLUNC1 expression is highly cell-specific in association with the cell functions.

Epithelial Cells ; metabolism ; Gene Expression ; Glycoproteins ; genetics ; metabolism ; Humans ; Organ Specificity ; Phosphoproteins ; genetics ; metabolism

Propagated sensation along meridians (PSM) is a phenomenon that a sensation moves along meridians during stimulation of an acupoint. PSM has an appearance rate of 1.3% among people and have characteristics of low speed, going toward afflicted sites and being blocked by physical pressure which is difficult to be explained by known neural and blood transmission. Volume transmission (VT) is a widespread mode of intercellular communication in the central nervous system that occurs in the extracellular fluid and in the cerebrospinal fluid. VT signals moves from source to target cells via energy gradients leading to diffusion and convection (flow) which is slow, long distance and much less space filling. VT channel diffuse forming a plexus in the extracellular space with two parameters of volume fraction and tortuosity. Some experiments showed an information transmission between adjacent and distant acupoints along meridians cross spinal segments. This process is a cross-excitation between peripheral nerve terminals which is related to nonsynaptic transmission. Some neurotransmitters or neuropeptides such as glutamate, adenosine triphosphate (ATP) and neuropeptide such as substance P, neurokinin A and calcitonin gene-related peptide relate with the cross-excitation which can be regards as VT signals. Comparing the characteristics of PSM and VT, many similar aspects can be found leading to an assumption that PSM is a process of VT in peripheral tissue along meridians. The reason why VT signals transmit along meridians is that the meridian is rich in interstitial fluid under the condition of low hydraulic resistance which has been proven experimentally. According to Darcy's law which descript the flow of interstitial fluid and conservation equation, interstitial fluid will move toward meridians and flow along meridians that restrict the VT signals within the channel and accelerate the flow according to Fick's diffusion law. During the process, a degranulation of histamine from mast cells happens on the route which can expand capillary and increase the blood perfusion and interstitial fluid which had already been observed. The mechanism of PSM is featured by alternative axon reflex (wired transmission, WT) and VT in peripheral tissue along meridians, sending simultaneously a continuous sensate signal to control nerve system which can be felt like a PSM.
Cell Communication ; Humans ; Meridians ; Neurotransmitter Agents ; metabolism ; Organ Specificity ; Sensation ; physiology

Sex differences are widely observed under various circumstances ranging from physiological processes to therapeutic responses, and a myriad of sex-biased genes have been identified. In recent years, transcriptomic datasets of microRNAs (miRNAs), an important class of non-coding RNAs, become increasingly accessible. However, comprehensive analysis of sex difference in miRNA expression has not been performed. Here, we identified the differentially-expressed miRNAs between males and females by examining the transcriptomic datasets available in public databases and conducted a systemic analysis of their biological characteristics. Consequently, we identified 73 female-biased miRNAs (FmiRs) and 163 male-biased miRNAs (MmiRs) across four tissues including brain, colorectal mucosa, peripheral blood, and cord blood. Our results suggest that compared to FmiRs, MmiRs tend to be clustered in the human genome and exhibit higher evolutionary rate, higher expression tissue specificity, and lower disease spectrum width. In addition, functional enrichment analysis of miRNAs show that FmiR genes are significantly associated with metabolism process and cell cycle process, whereas MmiR genes tend to be enriched for functions like histone modification and circadian rhythm. In all, the identification and analysis of sex-biased miRNAs together could provide new insights into the biological differences between females and males and facilitate the exploration of sex-biased disease susceptibility and therapy.
Biological Evolution ; Female ; Genome, Human ; Humans ; Male ; MicroRNAs ; blood ; genetics ; Organ Specificity ; Sex Characteristics ; Transcriptome