[The Identification Idea of Antibodies Against Ku and Other High-Frequency Antigens].

OBJECTIVE: This study was aimed to provide ideas for identifying the antibodies to high-frequency antigens by analyzing a female case of high-frequency antigen antibody (anti-Ku) using serological and sequencing method. METHODS: The methods for identification of blood group, erythrocyte antigen, screening and identification of antibody were used to detect the blood type and antibody in the proband. The proband's serum and reagent screening cells treated with Sulfhydryl reagent were applied to judge the type and characteristics of this antibodies when reacted with the regaent screening cells or proband's serum respectively. Gene sequencing was used to determine the genotype of the proband's blood group. RESULTS: The proband's red blood cells were determined as O type RhD positive, whose serum showed strong positive reaction to antibody-screening cells and antibody identification cells with the same intensity in saline and IAT medium, however, the self-cells showed negative effect. The Direct Antihuman Globulin of proband's red blood cells also showed weak positive reaction, and the other blood types were CcEe, Jk(a+b-), P1-, Le(a-b -), Lu (a-b +), K-, k-, Kp(a-b-). Serum of the proband treated with 2-ME still react with three groups of screening cells in IAT medium. The reaction intensity of proband's serum was also unchanged with the cells modified with papain and bromelain, but showed negative effect when the cells were treated with sulfhydryl agents including DTT and 2-ME. Gene sequencing revealed that the KEL genotype of the patient was KEL*02N.24 . This patient had a rare K0 phenotype. CONCLUSION: The rare Kell-null blood group (also known as K0) were identified by serological and molecular tests in the proband who produced both IgG and IgM type of antibody to high-frequency antigen (anti-Ku). These two methods are of great significance in the identification of this rare blood group as well as the antibody to high frequency antigen.

[Clinical Significance of Genetic and Molecular Changes in Primary Myeloid Sarcoma].

OBJECTIVE: To investigate the clinical significance of genetic and molecular changes in primary myeloid sarcoma (MS). METHODS: Fourteen patients with primary MS were selected in Jiading District Central Hospital Affiliated Shanghai University of Medicine & Health Sciences, The First People's Hospital of Lianyungang from September 2010 to December 2021. AML1-ETO fusion, PML-RARα fusion and CBFß breakage were detected by fluorescence in situ hybridization (FISH), and the mutations of NPM1, CEBPA, FLT3, RUNX1, ASXL1, KIT and TP53 genes were detected by new generation sequencing (NGS). RESULTS: Among 14 patients, the MS occurred in bone, breast, epididymis, lung, chest wall, cervix, small intestine, ovary, lymph nodes and central nervous system. The tumor cells expressed MPO (13 cases), CD34 (7 cases), CD43 (8 cases), CD68 (7 cases), CD99 (8 cases) and CD117 (6 cases). Cytogenetic abnormalities were observed in 4 cases, including 3 cases of AML1-ETO fusion and 1 case of CBFß breakage, while no PML-RARα fusion was detected. There were no significant differences in overall survival (OS) and leukemia-free survival (LFS) between patients with and without AML1-ETO fusion/CBFß breakage (both P >0.05). Among the 14 patients, the number of NPM1, CEBPA, FLT3-ITD, RUNX1, ASXL1, KIT and TP53 gene mutations was 5, 3, 5, 3, 2, 2, 1, respectively, of which 7 cases had at least one mutation in FLT3-ITD, RUNX1, ASXL1 and TP53 gene. The OS and LFS of patients with FLT3-ITD, RUNX1, ASXL1 or TP53 mutation were shorter than those without mutations (both P <0.01). CONCLUSION: The genetic and molecular abnormalities of primary MS can be detected by FISH and NGS techniques. FLT3-ITD, RUNX1, ASXL1 or TP53 mutation indicates a worse prognosis, but further clinical studies are needed to confirm it.

The terrestrial end-Permian mass extinction in the paleotropics postdates the marine extinction.

The end-Permian mass extinction was the most severe ecological event during the Phanerozoic and has long been presumed contemporaneous across terrestrial and marine realms with global environmental deterioration triggered by the Siberian Traps Large Igneous Province. We present high-precision zircon U-Pb geochronology by the chemical abrasion-isotope dilution-thermal ionization mass spectrometry technique on tuffs from terrestrial to transitional coastal settings in Southwest China, which reveals a protracted collapse of the Cathaysian rainforest beginning after the onset of the end-Permian marine extinction. Integrated with high-resolution geochronology from coeval successions, our results suggest that the terrestrial extinction occurred diachronously with latitude, beginning at high latitudes during the late Changhsingian and progressing to the tropics by the early Induan, spanning a duration of nearly 1 million years. This latitudinal age gradient may have been related to variations in surface warming with more degraded environmental conditions at higher latitudes contributing to higher extinction rates.

Follicle stimulating hormone controls granulosa cell glutamine synthesis to regulate ovulation.

Polycystic ovary syndrome (PCOS) is the leading cause of anovulatory infertility. Inadequate understanding of the ovulation drivers hinders PCOS intervention. Herein, we report that follicle stimulating hormone (FSH) controls follicular fluid (FF) glutamine levels to determine ovulation. Murine ovulation starts from FF-exposing granulosa cell (GC) apoptosis. FF glutamine, which decreases in pre-ovulation porcine FF, elevates in PCOS patients FF. High-glutamine chow to elevate FF glutamine inhibits mouse GC apoptosis and induces hormonal, metabolic, and morphologic PCOS traits. Mechanistically, follicle-development-driving FSH promotes GC glutamine synthesis to elevate FF glutamine, which maintain follicle wall integrity by inhibiting GC apoptosis through inactivating ASK1-JNK apoptotic pathway. FSH and glutamine inhibit the rapture of cultured murine follicles. Glutamine removal or ASK1-JNK pathway activation with metformin or AT-101 reversed PCOS traits in PCOS models that are induced with either glutamine or EsR1-KO. These suggest that glutamine, FSH, and ASK1-JNK pathway are targetable to alleviate PCOS.