Hypophosphatasia:​ validation and expansion of the clinical nosology for children from 25 years experience with 173 pediatric patients

Whyte, Michael P.; Zhang, Fan; Wenkert, Deborah; McAlister, William H.; Mack, Karen E.; Benigno, Marci C.; Coburn, Stephen P.; Wagy, Susan; Griffin, Donna M.; Ericson, Karen L.; Mumm, Steven

Affiliations

¹Center for Metabolic Bone Disease and Molecular Research, Shriners Hospital for Children, St. Louis, MO 63131, USA

²Division of Bone and Mineral Diseases, Washington University School of Medicine at Barnes-Jewish Hospital, St. Louis, MO 63110, USA

³Department of Pediatric Radiology, Mallinckrodt Institute of Radiology at St. Louis Children's Hospital, Washington University School of Medicine, St. Louis, MO 63110, USA

⁴Department of Chemistry, Indiana University–Purdue University, Fort Wayne, IN 46805, USA

⁵Current address: Amgen, Inc. (Thousand Oaks, CA, USA)

Abstract

Hypophosphatasia (HPP) is caused by loss-of-function mutation(s) within the gene TNSALP that encodes the “tissue-nonspecific” isoenzyme of alkaline phosphatase (TNSALP). In HPP, inorganic pyrophosphate, an inhibitor of mineralization and substrate for TNSALP, accumulates extracellularly often leading to rickets or osteomalacia and tooth loss, and sometimes to craniosynostosis and calcium crystal arthropathies. HPP's remarkably broad-ranging expressivity spans stillbirth from profound skeletal hypomineralization to adult-onset dental problems or arthropathies without bone disease, which is largely explained by autosomal recessive versus autosomal dominant transmission from among several hundred, usually missense, TNSALP mutations. For clinical purposes, this expressivity has been codified according to absence or presence of skeletal disease and then patient age at presentation and diagnosis. Pediatric patients are reported principally with “odonto”, “childhood”, “infantile”, or “perinatal” HPP. However, this nosology has not been tested using a cohort of patients, and the ranges of the clinical and laboratory findings have not been defined and contrasted among these patient groups.

To evaluate the extant nosology for HPP in children, we assessed our 25 years experience with 173 pediatric HPP patients. Data were exclusively from inpatient studies. The childhood form of HPP was further designated “mild” or “severe”. Here, we focused on demographic, clinical, and dual-energy X-ray absorptiometry parameters compared to data from healthy American children.

The 173-patient cohort comprised 64 individuals with odonto HPP, 38 with mild childhood HPP, 58 with severe childhood HPP, and 13 with infantile HPP. None was a survivor of perinatal HPP. TNSALP analysis revealed a mutation(s) in all 105 probands tested. Thirteen mutations were unique. Most patients represented autosomal dominant inheritance of HPP. Mutant allele dosage generally indicated the disorder's severity. Gender discordance was found for severe childhood HPP; 42 boys versus 16 girls (p = 0.006), perhaps reflecting parental concern about stature and strength. Key disease parameters (e.g., height, weight, numbers of teeth lost prematurely, grip strength, spine and hip bone mineral density) were increasingly compromised as HPP was designated more severe. Although data overlapped successively between the four patient groups, body size (height and weight) differed significantly.

Thus, our expanded nosology for HPP in children organizes the disorder's broad-ranging expressivity and should improve understanding of HPP presentation, natural history, complications, and prognosis.

Links

DOI: 10.1016/j.bone.2015.02.022

PubMed: 25731960

WoS: 000353075100029

History

Received: 2014-09-18

Revised: 2015-02-12

Accepted: 2015-02-19

Online: 2015-02-27

Cited Works (1)

Year	Entry
1966	Fleisch H, Russell RGG, Straumann F. Effect of pyrophosphate on hydroxyapatite and its implications in calcium homeostasis. Nature. November 26, 1966;212:901-903.

Cited By (18)

Year	Entry
2017	Whyte MP. Hypophosphatasia: an overview for 2017. Bone. September 2017;102:15-25.
2020	Whyte MP, Zhang F, Wenkert D, Mumm S, Berndt TJ, Kumar R. Hyperphosphatemia with low FGF7 and normal FGF23 and sFRP4 levels in the circulation characterizes pediatric hypophosphatasia. Bone. May 2020;134:115300.
2020	Lin EL, Gottesman GS, McAlister WH, Bijanki VN, Mack KE, Griffin DM, Mumm S, Whyte MP. Healing of vitamin D deficiency rickets complicating hypophosphatasia suggests a role beyond circulating mineral sufficiency for vitamin D in musculoskeletal health. Bone. July 2020;136:115322.
2020	Simmons JH, Rush ET, Petryk A, Zhou S, Martos-Moreno GÁ. Dual X-ray absorptiometry has limited utility in detecting bone pathology in children with hypophosphatasia: a pooled post hoc analysis of asfotase alfa clinical trial data. Bone. August 2020;137:115413.
2021	Kramer K, Chavez MB, Tran AT, Farah F, Tan MH, Kolli TN, dos Santos EJL, Wimer HF, Millán JL, Suva LJ, Gaddy D, Foster BL. Dental defects in the primary dentition associated with hypophosphatasia from biallelic ALPL mutations. Bone. February 2021;143:115732.
2021	Whyte MP, May JD, McAlister WH, Burgener K, Cortez SR, Kreienkamp R, Castro O, Verzola R, Zavala AS, McPherson CC, Gottesman GS, Ericson KL, Coburn SP, Arbelaez AM. Vitamin B₆ deficiency with normal plasma levels of pyridoxal 5′-phosphate in perinatal hypophosphatasia. Bone. September 2021;150:116007.
2022	Whyte MP, Zhang F, Wenkert D, Mack KE, Bijanki VN, Ericson KL, Coburn SP. Hypophosphatasia: vitamin B₆ status of affected children and adults. Bone. January 2022;154:116204.
2024	Farman MR, Rehder C, Malli T, Rockman-Greenberg C, Dahir K, Martos-Moreno GÁ, Linglart A, Ozono K, Seefried L, del Angel G, Webersinke G, Barbazza F, John LK, Delana Mudiyanselage SMA, Högler F, Nading EB, Huggins E, Rush ET, El-Gazzar A, Kishnani PS, Högler W. The Global ALPL gene variant classification project: dedicated to deciphering variants. Bone. January 1, 2024;178:116947.
2016	Millán JL, Whyte MP. Alkaline phosphatase and hypophosphatasia. Calcif Tiss Int. April 2016;98(4):398-416.
2020	Bayramli R, Cevlik T, Guran T, Atay Z, Bas S, Haklar G, Bereket A, Turan S. Clinical significance of hypophosphatasemia in children. Calcif Tiss Int. June 2020;106(6):608-615.
2020	Nakamura-Takahashi A, Tanase T, Matsunaga S, Shintani S, Abe S, Nitahara-Kasahara Y, Watanabe A, Hirai Y, Okada T, Yamaguchi A, Kasahara M. High-level expression of alkaline phosphatase by adeno-associated virus vector ameliorates pathological bone structure in a hypophosphatasia mouse model. Calcif Tiss Int. June 2020;106(6):665-677.
2021	Jandl NM, Schmidt T, Rolvien T, Stürznickel J, Chrysostomou K, von Vopelius E, Volk AE, Schinke T, Kubisch C, Amling M, Barvencik F. Genotype–phenotype associations in 72 adults with suspected ALPL-associated hypophosphatasia. Calcif Tiss Int. March 2021;108(3):288-301.
2022	Rush ET, Johnson B, Aradhya S, Beltran D, Bristow SL, Eisenbeis S, Guerra NE, Krolczyk S, Miller N, Morales A, Ramesan P, Sarafrazi S, Truty R, Dahir K. Molecular diagnoses of X-linked and other genetic hypophosphatemias: results from a sponsored genetic testing program. J Bone Miner Res. February 2022;37(2):202-214.
2022	Mohamed FF, Chavez MB, Huggins S, Bertels J, Falck A, Suva LJ, Foster BL, Gaddy D. Dentoalveolar defects of hypophosphatasia are recapitulated in a sheep knock-in model. J Bone Miner Res. October 2022;37(10):2005-2017.
2016	Whyte MP. Hypophosphatasia: aetiology, nosology, pathogenesis, diagnosis and treatment. Nat Rev Endocrinol. April 2016;12(4):233-246.
2017	Schmidt T, Mussawy H, Rolvien T, Hawellek T, Hubert J, Rüther W, Amling M, Barvencik F. Clinical, radiographic and biochemical characteristics of adult hypophosphatasia. Osteoporos Int. September 2017;28(9):2653-2662.
2020	Bianchi ML, Bishop NJ, Guañabens N, Hofmann C, Jakob F, Roux C, Zillikens MC; Rare Bone Disease Action Group of the European Calcified Tissue Society. Hypophosphatasia in adolescents and adults: overview of diagnosis and treatment. Osteoporos Int. August 2020;31(8):1445-1460.
2021	Genest F, Claußen L, Rak D, Seefried L. Bone mineral density and fracture risk in adult patients with hypophosphatasia. Osteoporos Int. February 2021;32(2):377-385.