Delayed Diagnosis, Difficult Decisions: Novel Gene Deletion Causing X-Linked Hypophosphatemia in a Middle-Aged Man with Achondroplastic Features and Tertiary Hyperparathyroidism.

X-linked hypophosphatemia (XLH) is the most prevalent form of hereditary hypophosphatemic rickets associated with phosphate wasting. However, its diagnosis is often missed, resulting in patients presenting late in the course of the disease when complications such as tertiary hyperparathyroidism and renal failure have already set in. Phosphate and calcitriol replacement, both of which have undesirable consequences of their own, have historically been the main stay of therapy. We describe the case of a 57-year-old gentleman with tertiary hyperparathyroidism, who was mislabelled as having achondroplasia for many years before we made a diagnosis of XLH in him. His XLH was found to be due to a hereto unreported deletion of entire exon 14 with partial deletions of introns 13 and 14 of the PHEX gene. Perioperative management in him was fraught with surgical and medical difficulties including an operation that was technically complicated due to his multiple anatomical deformities. Our case also highlights the critical importance of timely recognition and accurate diagnosis of XLH, as well as the long-term multidisciplinary management that is needed for this disorder.

Association of NOTCH2NLC Repeat Expansions With Parkinson Disease.

Importance: The presence of Notch homolog 2 N-terminal-like C (NOTCH2NLC) repeat expansions are associated with neuronal intranuclear inclusion body disease (NIID), with varied neurological signs, including neuropathy, ataxia, parkinsonism, and tremor. To date, genetic screening of NOTCH2NLC GGC repeats in a cohort with typical Parkinson disease (PD) appears not to have been reported. Objective: To investigate if NOTCH2NLC GGC expansions are present in a cohort of patients with PD and controls. Design, Setting, and Participants: This case-control study was conducted in 2 tertiary movement disorder centers in Singapore. Participants were recruited and followed up from January 2005 to January 2020. The presence of NOTCH2NLC GGC expansion repeats was screened using polymerase chain reaction tests, and representative samples were verified with long-read genome sequencing. Main Outcomes and Measures: Qualitative and quantitative comparisons between participants with sporadic PD, healthy control participants, and individuals with NIID. Results: A total of 2076 participants, including 1000 with sporadic PD (600 men [60.0%]; mean age at onset, 62.6 [7.7] years) and 1076 healthy controls (581 men [54.0%]; mean age at study recruitment, 54.9 [9.4] years) were recruited. A total of 13 patients with PD and no healthy control participants were identified as carrying NOTCH2NLC GGC repeat expansions of more than 40 units; the frequency of more than 40 repeat expansions was higher in participants with PD than controls (P < .001). None of the patients with PD were carriers of known PD-associated genes. Ten patients with PD carried a GGC expansion of between 41 and 64 repeats (1% of patients with sporadic PD; mean [SD], 49.4 [9.2] repeats). The other 3 patients carried GGC repeats of 79 or more units, 2 with 122 and 79 repeats, respectively, exhibited typical parkinsonism and were responsive to small dosages of levodopa over many years, with no clinical or imaging features of NIID. The other patient with PD, who had 130 repeats, only developed cognitive impairment before death. Within the GGC expansions, there was no GGA interruptions (mean [SD] GGA percentage in the 3 patients with PD vs patients with NIID, 0% vs 12% [9%]), and the frequency of AGC interruptions was 3 times higher in these patients with PD than patients with NIID (mean [SD], 25% [12%] vs 8% [8%]). Conclusions and Relevance: This study demonstrated that individuals with sporadic PD who carried pathogenic NOTCH2NLC GGC repeat expansions can present with typical parkinsonism, requiring only low dosages of levodopa, without displaying other clinical or imaging features of NIID even after several years of follow-up. None of the patients with PD had GGA interruptions within their GGC expansions, and the frequency of AGC interruptions was much higher than that of patients with NIID. The functional significance of a higher moderate repeat expansion in patients with PD compared with healthy controls needs to be further investigated.

Mechanistic Investigation of the Specific Anticancer Property of Artemisinin and Its Combination with Aminolevulinic Acid for Enhanced Anticolorectal Cancer Activity.

The antimalarial artemisinin (ART) possesses anticancer activity, but its underlying mechanism remains largely unclear. Using a chemical proteomics approach with artemisinin-based activity probes, we identified over 300 specific ART targets. This reveals an anticancer mechanism whereby ART promiscuously targets multiple critical biological pathways and leads to cancer cell death. The specific cytotoxicity of ART against colorectal cancer (CRC) cells rather than normal colon epithelial cells is due to the elevated capacity of heme synthesis in the cancer cells. Guided by this mechanism, the specific cytotoxicity of ART toward CRC cells can be dramatically enhanced with the addition of aminolevulinic acid (ALA), a clinically used heme synthesis precursor, to increase heme levels. Importantly, this novel ART/ALA combination therapy proves to be more effective than an ART monotherapy in a mouse xenograft CRC model. Thus, ART can be repurposed and potentiated by exploitation of its mechanism of action and the metabolic features of the CRC cells.