Cutaneous Endometriosis: A Case Report and Review of the Literature.

BACKGROUND Endometriosis is a unique entity described in ample literature as the decidualization of endometrial tissues under the influence of gynecological hormones outside the uterine cavity. The post-surgical presence of ectopic endometrial tissue on the skin is known as abdominal wall endometriosis, cutaneous endometriosis, or scar endometriosis. Iatrogenic implantation of detached endometrial tissues at the incision site is the most widely accepted theory for this rare monad. The unspecific scar endometriosis presentation makes it challenging to diagnose. Moreover, it can easily be confused with hematoma, hernia, lipoma, abscess, scar granuloma, and tumor. Here, we report and discuss a rare case of scar endometriosis with various available treatment modalities. CASE REPORT We delineate a case of a 39-year-old woman with abdominal wall cutaneous endometriosis. An "inverted T" incision opened the abdominal and uterine cavity as it was a problematic preterm breech in labor. After an uneventful postoperative and postpartum period, she presented with a painful, discolored nodular mass of approximately 3 cm in diameter at the left border of the cesarian scar, developed over 1.5 years, often accompanied by drainage of brownish discharge. Ultrasonography with color Doppler showed a hypoechoic lesion with internal vascularity, corroborated our preliminary diagnosis of scar endometriosis, which was further confirmed by surgical excision and histopathology. CONCLUSIONS A proper surgical resection is the standard treatment line for scar endometriosis. However, patients need regular follow-up to look for recurrences, even after treatment. Further studies are recommended to establish factors associated with cutaneous endometriosis recurrence.

Discovery of a Potent and Selective PI3Kδ Inhibitor (S)-2,4-Diamino-6-((1-(7-fluoro-1-(4-fluorophenyl)-4-oxo-3-phenyl-4H-quinolizin-2-yl)ethyl)amino)pyrimidine-5-carbonitrile with Improved Pharmacokinetic Profile and Superior Efficacy in Hematological Cancer Models.

PI3Kδ inhibitors have been approved for B-cell malignancies like CLL, small lymphocytic lymphoma, and so forth. However, currently available PI3Kδ inhibitors are nonoptimal, showing weakness against at least one of the several important properties: potency, isoform selectivity, and/or pharmacokinetic profile. To come up with a PI3Kδ inhibitor that overcomes all these deficiencies, a pharmacophoric expansion strategy was employed. Herein, we describe a systematic transformation of a "three-blade propeller" shaped lead, 2,3-disubstituted quinolizinone 11, through a 1,2-disubstituted quinolizinone 20 to a novel "four-blade propeller" shaped 1,2,3-trisubstituted quinolizinone 34. Compound 34 has excellent potency, isoform selectivity, metabolic stability across species, and exhibited a favorable pharmacokinetic profile. Compound 34 also demonstrated a differentiated efficacy profile in human germinal center B and activated B cell-DLBCL cell lines and xenograft models. Compound 34 qualifies for further evaluation as a candidate for monotherapy or in combination with other targeted agents in DLBCLs and other forms of iNHL.

Discovery of isoquinolinone and naphthyridinone-based inhibitors of poly(ADP-ribose) polymerase-1 (PARP1) as anticancer agents: Structure activity relationship and preclinical characterization.

The exploitation of GLU988 and LYS903 residues in PARP1 as targets to design isoquinolinone (I & II) and naphthyridinone (III) analogues is described. Compounds of structure I have good biochemical and cellular potency but suffered from inferior PK. Constraining the linear propylene linker of structure I into a cyclopentene ring (II) offered improved PK parameters, while maintaining potency for PARP1. Finally, to avoid potential issues that may arise from the presence of an anilinic moiety, the nitrogen substituent on the isoquinolinone ring was incorporated as part of the bicyclic ring. This afforded a naphthyridinone scaffold, as shown in structure III. Further optimization of naphthyridinone series led to identification of a novel and highly potent PARP1 inhibitor 34, which was further characterized as preclinical candidate molecule. Compound 34 is orally bioavailable and displayed favorable pharmacokinetic (PK) properties. Compound 34 demonstrated remarkable antitumor efficacy both as a single-agent as well as in combination with chemotherapeutic agents in the BRCA1 mutant MDA-MB-436 breast cancer xenograft model. Additionally, compound 34 also potentiated the effect of agents such as temozolomide in breast cancer, pancreatic cancer and Ewing's sarcoma models.