PRV did not interfere with immune responses to OPV. Although coadministration with OPV reduced serum antirotavirus IgA geometric mean titer, seroresponse rates were high and consistent with those observed in previous studies showing high vaccine efficacy. These results support including PRV in vaccination schedules involving OPV.
Autosomal dominant hypocalcemia type 1 (ADH1) is a rare form of hypoparathyroidism caused by gain-of-function pathogenic variants in the gene (CASR) encoding the calcium-sensing receptor (CaSR). It is characterized by variable degrees of hypocalcemia, hyperphosphatemia, and hypomagnesemia, inappropriately low levels of parathyroid hormone (PTH) and hypercalciuria. Conventional therapy includes oral calcium and activated Vitamin D, targeting blood calcium at or slightly below the low-normal level to minimize hypocalcemic symptoms. This supplementation typically causes or exacerbates hypercalciuria, which may lead to nephrolithiasis, nephrocalcinosis, and renal insufficiency. It has been demonstrated in in vitro and in vivo models of ADH1, as well as in a Phase 2b clinical study (Roberts et al, JBMR 2019) that calcilytics (negative allosteric modulators of the CaSR), have the ability to shift the concentration-response relationship between extracellular calcium and the mutant CaSR towards normal. Six adults with ADH1 due to four distinct activating variants of the CASR were studied in an ongoing, three period, Phase 2b, open-label, dose-ranging study [NCT04581629] of the calcilytic encaleret (CLTX-305). Calcium, magnesium, and calcitriol supplements were discontinued at the start of Period 1, and subjects received sequential, increasing daily doses of encaleret for 3d (30 mg, 90 mg, 180 mg) followed by 120 or 180 mg twice daily on day 4 and 5, while undergoing frequent blood and urine sampling. The mean baseline PTH was 3.4 ± 4.5 pg/mL (mean ± SD; nl 10–65); on encaleret, there was a rapid, dose-dependent increase in PTH to a mean level of 64.8 ± 49.6 pg/mL over 24 hours by day 5. Albumin-corrected blood calcium (cCa) increased from a baseline of 7.6 ± 0.6 mg/dL (nl 8.4–10.2) to a 24-hour mean on day 5 of 9.0 ± 0.5 mg/dL. Phosphorus decreased from a baseline of 4.5 ± 0.7 mg/dL (nl 2.3–4.7) to a 24-hour day 5 mean of 2.9 ± 0.5 mg/dL. Magnesium increased from a baseline of 1.6 ± 0.4 mg/dL (nl 1.6–2.6) to a 24-hour day 5 mean of 2.0 ± 0.5 mg/dL. Blood calcium, phosphorus and magnesium were mostly maintained within the normal range in ADH1 subjects by days 4 and 5. Twenty-four hour urine calcium was elevated at the screening visit while subjects were on conventional therapy (436 ± 255 mg/day, nl < 250–300) and decreased with increasing doses of encaleret to 63 ± 127 mg/day on day 5. Urinary calcium excretion became normal in 3 subjects and undetectable in 3 subjects while on encaleret. Encaleret was well-tolerated, with no serious adverse events reported. The consistent mineral responses following encaleret administration in all six ADH1 subjects with four distinct CASR genotypes represents preliminary proof-of-concept that encaleret may be an efficacious treatment for ADH1. The longer-term evaluation of encaleret in ADH1 subjects is ongoing.
Autosomal dominant hypocalcemia type 1 (ADH1) is a rare form of hypoparathyroidism caused by gain-of-function pathogenic variants in the gene encoding the calcium-sensing receptor (CaSR). It is characterized by variable degrees of hypocalcemia, hyperphosphatemia, and hypomagnesemia, with inappropriately low levels of parathyroid hormone (PTH) and hypercalciuria. Conventional therapy includes oral calcium and activated Vitamin D supplementation, which can lead to or exacerbate hypercalciuria. As a result, patients may develop nephrolithiasis and/or nephrocalcinosis, which can progress to renal insufficiency. Calcilytics (antagonists of the CaSR) have demonstrated in in vitro and in vivo models of ADH1, as well as in a small clinical trial (Roberts et al, JBMR 2019), the ability to shift the dose-response relationship between extracellular calcium and the cellular response of cells bearing the mutant CaSR towards normal. This shift has the potential to increase endogenous PTH secretion which in turn may promote skeletal release of calcium into the bloodstream, production of endogenous calcitriol, renal excretion of phosphate, and renal reabsorption of calcium. Additionally, direct effects of calcilytics on renal CaSRs may further reduce renal calcium and magnesium excretion in ADH1. Taken together, this class of drugs has the capacity to restore normal mineral homeostasis, without calcium and activated vitamin D supplements and without attendant risks of iatrogenic hypercalciuria. This Phase 2b, open-label, dose-ranging study will evaluate the safety, tolerability, pharmacodynamics, and pharmacokinetics of the calcilytic encaleret (CLTX-305) in up to 16 participants with ADH1 (NCT04581629). The study will consist of 3 periods. In periods 1 and 2, participants will undergo a 1-week inpatient evaluation to study the safety and tolerability of daily and twice-daily doses of encaleret. Period 3 will follow participants for up to 24 weeks of continuous outpatient dosing, with periodic inpatient and outpatient assessments. The primary endpoint of period 3 is the change from baseline in albumin-corrected blood calcium concentration. Secondary endpoints of the study include the change in urine calcium (fractional and 24-hour excretion), 1,25-dihydroxy-Vitamin D, phosphate, magnesium, and other blood/urine biomarkers. Enrollment for this study at the National Institutes of Health (NIH) began in September 2020 with topline results expected in 2021. This study is supported by Calcilytix Therapeutics, Inc. and the NIH Intramural Research Program.
Autosomal dominant hypocalcemia type 1 (ADH1), caused by gain-of-function variants in the gene encoding the calcium-sensing receptor (CaSR), is characterized by hypocalcemia, hyperphosphatemia, hypomagnesemia, low parathyroid hormone (PTH), and hypercalciuria. Conventional therapy (calcium and activated Vitamin D) worsens hypercalciuria and can lead to renal morbidity. Calcilytics (negative allosteric modulators of the CaSR) decrease the sensitivity of hyperactive receptors to extracellular calcium and normalize blood and urine abnormalities in ADH1 rodent models. Encaleret is an oral calcilytic under investigation as a potential treatment for ADH1. Thirteen adults (22-60y) with ADH1 due to 9 unique CASR variants participated in a 3-period, Phase 2b, open-label, dose-ranging study. Conventional therapy was discontinued prior to encaleret initiation. Period 1 (P1) was a 5-day inpatient dose-escalation course (n=6). Period 2 (P2) was a 5-day inpatient course (n=13) in which doses were individually titrated to normalize albumin-corrected blood calcium (cCa) and minimize hypercalciuria and hypophosphatemia. All 13 participants continued into Period 3 (P3), a 24-week outpatient maintenance period. Patients underwent serial 24hr blood and urine sampling in P1, P2, and in P3 at Weeks 8, 16, and 24, with additional outpatient laboratory timepoints. The mean±SD encaleret dose at the end of P2, Day 5 (P2D5) was 94±64mg BID (range: 10-180 BID); by P3, Week 24 (P3W24), the mean was 78±67mg BID (5-190 BID). Encaleret was well-tolerated with no serious adverse events reported; there were no treatment discontinuations or study withdrawals. Twenty-four hour mean±SD values from P2D5 (n=13) and P3W24 (n=12) compared to baseline are presented. Baseline PTH was low at 6.3±7.8 pg/mL (nl 10-65) and had normalized by P2D5 (40.5±37.5, p<0.01); this was sustained through P3W24 (31.3±20.8, p<0.01). Likewise, baseline hypocalcemia (cCa=7.1±0.4 mg/dL [nl 8.4-10.2]) corrected to 8.6±0.7 by P2D5 (p<0.01) and remained normal through P3W24 (9.0±0.6, p<0.01). Baseline urinary calcium was 395±216 mg/d (nl <250-300) and decreased to 179±108 by P2D5 (p<0.01) and 189±72 at P3W24 (p<0.05); urinary calcium excretion was normal in 10/12 patients at P3W24. Baseline phosphate decreased from 4.5±1.1 mg/dL (nl 2.3-4.7) to 3.2±0.7 on P2D5 (p<0.01) and was maintained through P3W24 (3.5±0.6, p<0.05). Magnesium increased from low- to mid-normal (baseline 1.7±0.2 mg/dL [nl 1.6-2.6]; P2D5 1.9±0.2 [p<0.01]; P3W24 2.0±0.2, [p<0.01]). 1,25-dihydroxy-Vitamin D increased from 19.5±4.4 pg/mL (nl 20-70) to 32.0±16.7 on P2D5 (p<0.05) and 30.2±14.0 on P3W24 (p<0.05). Bone turnover markers were not different between baseline (n=7, CTX=253±111 pg/mL; P1NP=34±10 mcg/L) and P2D5 (CTX=241±181, p=NS; P1NP=26±12, p=NS) but had increased by P3W24 (CTX=784±686, p<0.01; P1NP=102±87, p<0.01). In conclusion, this study represents a molecularly targeted, precision medicine approach to the treatment of ADH1. The consistent and sustained results from all periods of this Phase 2 study establish a clinically meaningful efficacy, tolerability, and safety profile for encaleret as a potential treatment of adults with ADH1. Presentation: Monday, June 13, 2022 11:15 a.m. - 11:30 a.m.
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