Hereditary Spherocytosis Case Report PDF

Summary

This medical case report details a patient diagnosed with hereditary spherocytosis type 1. The patient presented with recurrent jaundice from an early age, and genetic testing revealed a novel mutation in the ANK1 gene. The report discusses the clinical presentation, diagnostic methods, and treatment implications of this condition.

Full Transcript

**Hereditary Spherocytosis type1 with Novel mutation in ANK1 gene a
missed diagnosis for decades: A Case Report**

**Abstract**

**Background** Hereditary spherocytosis (HS) is a common congenital
haemolytic anaemia and (HS-1) is most common among (HS), caused by
genetic defect in at least one of the five genes encoding membrane
anchoring proteins of red blood cells resulting in osmotically fragile
dense spherocytes with reduced life span, destroyed by spleen and
characterized by triad of jaundice, haemolytic anaemia and splenomegaly,
presentation ranges from asymptomatic to severe form depending on
defective protein involved. **Clinical presentation** Our patient
presented with recurrent jaundice from day 3 of life and splenomegaly,
no anaemia and no family history. **Methods:** Genomic DNA obtained from
peripheral blood, analysed by whole exome sequencing, a NGS platform
**Results:** Tests revealed unconjugated hyperbilirubinemia,
reticulocytosis and spherocytosis on blood film and increased RBC
osmotic fragility. Whole exome sequencing revealed de novo heterozygous
frameshift mutation at c.3181\_3190del (p. Leu1061 Ter) in exon 28 of
ANK1 gene. **Conclusion** Clinical heterogeneity in haemolytic diseases
often pose challenges for clinical diagnosis by clinicians, mandating
molecular diagnosis.

Key words

HS: Hereditary Spherocytosis, WES: whole exome sequencing, NGS:
Next-Generation sequencing, HGMD: Human Genome Mutation Database

**Introduction**

Hereditary spherocytosis (HS) is most common congenital haemolytic
anaemia was first described by Oskar Minkowsky in early part of
1900.(1), caused by genetic defect in at least one of the five genes (
ANK1, SLC4A1, SPTA1, SPTB, EPB42) encoding membrane anchoring protein of
red blood cells, inherited in both autosomal dominant manner (75%) and
remaining (25%) cases include autosomal recessive inheritance and denovo
mutations and characterised by triad of jaundice, splenomegaly and
haemolytic anaemia with heterogeneity in clinical presentations (2).The
complications, haemolytic crises, aplastic crises and cholelithiasis may
be observed in natural course of the disease (3,4,5). Hereditary
spherocytosis is common in northern European descends with prevalence
rate of 1:2000 (6)

Hereditary spherocytosis type1(\#182900) is due to defect in ankyrin-1
protein on RBC, encoded by ANK1(\*612641) gene mapped on 8p11.2. ANK1
gene consist of 43 exons and comprises three domains membrane binding
domain, spectrin binding and regulatory domain and encodes protein
ankyrin-1 (6) consisting of 1880 amino acids. So far, 340 mutations have
been reported in ANK1 gene (HGMD).

Literature review showed that laboratory parameters observed in (HS) are
reticulocytosis, spherocytosis in blood film, unconjugated
hyperbilirubinemia, increased osmotic fragility and negative direct
Coombs test. (8)

Folic acid supplementation as a supportive treatment and aggressive
treatment in aplastic crises, splenectomy with splenomegaly related
severe haemolysis and cholecystectomy in gallstones related
complications.

To the best of our knowledge this mutation described in this case report
has been not reported in earlier published data. highlights the utility
of NGS technology in identification of mutations to arrive at definitive
molecular diagnosis.

**Case presentation**

A Twenty-two years old young man with negative family history born to
nonconsanguineous parents presented with recurrent yellowish
discolouration of sclera from day three of life first noticed by mother.
On examination height measuring () and weight (), there was yellow
discoloration of sclera, no pallor and no dysmorphic facies. His
haematological work up showed haemoglobin (), reticulocyte count 18.59%
(normal:0.5-2.5%), peripheral blood picture revealed spherocytes,
increased osmotic fragility and total unconjugated bilirubin 6.41
(normal) and direct (). increased spleen size 17cms (normal) on
ultrasonography. Autoimmune work up showed ANA and direct Coombs test
negative

His Genetic analysis, the Whole Exome Sequencing (WES) a Next-Generation
Sequencing (NGS) revealed frameshift c.3181\_3190del (p. Leu1061 Ter) a
heterozygous 10 base pair deletion in exon 28 of ANK1 gene on chromosome
8 leading stop codon with premature truncation of protein at codon
1061(p.Leu 1061Ter) of transcript ENST00000289734.13, not reported in
1000 genome, gnomAD and other clinical databases (ClinVar, HGMD). In
slilico prediction, MutationTaster2 revealed disease causing variant. He
was provided genetic counselling and started on folate supplementation
and advised periodic follow up.

**Discussion:**

This 22 years old young man, non-blood transfusion dependent born to
non-consanguineous parents with no similar illness in family, presented
with recurrent jaundice from day 3 of life without anaemia, had
splenomegaly on abdominal ultrasonography. Possibility considered was
haemolytic disease. At this point, the close differentials considered
were, Autoimmune haemolytic anaemia, G6PD deficiency, Gilbert syndrome
and other hereditary spherocytosis

For confirmation of diagnosis, battery of laboratory investigations was
performed, ANA and direct Coombs test were negative, ruled out
autoimmune haemolytic anaemia. G6PD and Gilbert syndrome are
non-spherocytic haemolytic disorders and they are distinguished by
genetic testing. In our patient there were reticulocytosis,
spherocytosis, unconjugated hyperbilirubinemia and increased osmotic
fragility of red blood cells, collating all findings, Hereditary
spherocytosis was strongly suspected

For definitive molecular diagnosis, Whole exome sequencing revealed
heterozygous 10 base pairs deletion in exon 28 of ANK1 gene, likely
pathogenic mutation consistent with Hereditary Spherocytosis type1.
Validation of parents and younger sister by Sanger sequencing was
performed, neither parents nor younger sister were carrying this
mutation and is unreported in clinical databases suggesting novel denovo
mutation associated with mild clinical presentation

He was started on folic acid supplementation, in case develops severe
anaemia and haemolysis and refractory to supportive treatment, would
need splenectomy and cholecystectomy for gallstones as a treatment of
choice. Parents and proband were provided genetic counselling.

This case report highlights that any haemolytic disease, also consider
Hereditary spherocytosis and warranting a definitive molecular diagnosis
by utilizing affordable and accessible NGS technology to detect mutation
of clinical significance to provide basis for effective Genetic
counselling, risk associated with transmission and course of the
disease. Need more published data to understand Genotype-Phenotype
correlation in individuals with this novel mutation

1.Manciu S, Matei E, Trandafir B. Hereditary Spherocytosis - Diagnosis,
Surgical Treatment and Outcomes. A Literature Review. Chirurgia
(Bucur). 2017
Mar-Apr;112(2):110-116. \[[PubMed](https://pubmed.ncbi.nlm.nih.gov/28463670)\]

2.Tole S, Dhir P, Pugi J, Drury LJ, Butchart S, Fantauzzi M, et al.
Genotype-phenotype correlation in children with hereditary
spherocytosis. Br J Haematol. 2020;191:486--96.

3.Tamary H, Aviner S, Freud E, Miskin H, Krasnov T, Schwarz M, Yaniv I.
High incidence of early cholelithiasis detected by ultrasonography in
children and young adults with hereditary spherocytosis. J Pediatr
Hematol Oncol. 2003 Dec;25(12):952-4

4.Hereditary spherocytosis: Retrospective evaluation of 65 children Ali
Güngör, Neşe Yaralı, Ali Fettah, İkbal Ok-Bozkaya, Namık Özbek,
Abdurrahman Kara Department of Pediatric Hematology, University of
Health Sciences, Ankara Child Health and Diseases Hematology Oncology
Training and Research Hospital, Ankara, Turkey. E-mail:
gungorali19\@gmail.com Received: 27th February 2017, Revised: 13th
October 2017, Accepted: 28th November 2017 ( aplastic
crisis+cholelithiasis\_

5.Hereditary Spherocytosis: Evaluation of 68 Children C¸ apan Konca
Murat So¨ker Mehmet Ali Tas¸ Ruken Yıldırım Received: 24 September
2013 / Accepted: 25 March 2014 Indian Society of Haematology &
Transfusion Medicine 2014 hamo+apals\_chole)

Indian J Hematol Blood Transfus DOI 10.1007/s12288-014-0379-z

6.Ciepiela O. Old and new insights into the diagnosis of hereditary
spherocytosis. Ann Transl Med. 2018 Sep;6(17):339. \[[PMC free
article](https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6174190/)\]
\[[PubMed](https://pubmed.ncbi.nlm.nih.gov/30306078)\]

7.Structure and organization of the human ankyrin-1 gene. Basis for complexity of pre-mRNA processing
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[P G Gallagher](https://pubmed.ncbi.nlm.nih.gov/?term=Gallagher+PG&cauthor_id=9235914)^ (https://pubmed.ncbi.nlm.nih.gov/9235914/#full-view-affiliation-1)^, [W T Tse](https://pubmed.ncbi.nlm.nih.gov/?term=Tse+WT&cauthor_id=9235914), [A L Scarpa](https://pubmed.ncbi.nlm.nih.gov/?term=Scarpa+AL&cauthor_id=9235914), [S E Lux](https://pubmed.ncbi.nlm.nih.gov/?term=Lux+SE&cauthor_id=9235914), [B G Forget](https://pubmed.ncbi.nlm.nih.gov/?term=Forget+BG&cauthor_id=9235914)
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8, The diagnostic protocol for hereditary spherocytosis-2021 update
Yangyang Wu \| Lin Liao \| Faquan Lin