Many human genetic diseases, including Hutchinson-Gilford progeria syndrome (HGPS), are caused by single point mutations. HGPS is a rare disorder that causes premature aging and is usually caused by a de novo point mutation in the LMNA gene. Base editors (BEs) composed of a cytidine deaminase fused to CRISPR/Cas9 nickase are highly efficient at inducing C to T base conversions in a programmable manner and can be used to generate animal disease models with single amino-acid substitutions. Here, we generated the first HGPS monkey model by delivering a BE mRNA and guide RNA (gRNA) targeting the LMNA gene via microinjection into monkey zygotes. Five out of six newborn monkeys carried the mutation specifically at the target site. HGPS monkeys expressed the toxic form of lamin A, progerin, and recapitulated the typical HGPS phenotypes including growth retardation, bone alterations, and vascular abnormalities. Thus, this monkey model genetically and clinically mimics HGPS in humans, demonstrating that the BE system can efficiently and accurately generate patient-specific disease models in non-human primates.
Animals ; Disease Models, Animal ; Female ; Gene Editing ; Humans ; Lamin Type A/metabolism* ; Macaca fascicularis ; Progeria/pathology*

OBJECTIVETo explore clinical, radiographical and genetic characteristics of classical Hutchinson-Gilford progeria syndrome (HGPS).

METHODData of a case of HGPS diagnosed at Tongji Hospital Affiliated to Tongji Medical College of Huazhong University of Science and Technology was analyzed and related literature was reviewed.

RESULTAt the age of 8 months, the affected-infant presented with characteristic manifestation such as short stature, low weight, frontal bossing, alopecia, prominent scalp veins, micrognathia with a vertical midline groove in the chin, sclerodermatous skin, knee joints contracture with a horse-riding stance, and limited range of movement of ankle joints. Blood test showed blood platelet count (416-490) ×10(9)/L. Lower extremities MRI showed reduced subcutaneous fat. LMNA gene analysis showed that the affected-infant carried typical heterozygous mutation: c. 1824C>T (p. G608G), while his parents were normal. At the age of 13 months, X-rays showed short distal phalanges and clavicles with acro-osteolysis. After following up for 15 months, his appearance of progeria became more apparent. As far as we know, there are only 2 cases of classical HGPS confirmed by gene analysis in China.

CONCLUSIONClassical HGPS should be considered when infants appeared with sclerodermatous skin. Genetic analysis could help to diagnose classical HGPS as early as possible and avoid unnecessary investigations. In addition, affected-infants need to be long term followed-up and provided genetic counseling.

Abnormalities, Multiple ; diagnosis ; pathology ; DNA Mutational Analysis ; Diagnosis, Differential ; Hand ; diagnostic imaging ; pathology ; Humans ; Infant ; Lamin Type A ; genetics ; Lower Extremity ; diagnostic imaging ; pathology ; Male ; Mutation ; genetics ; Osteolysis, Essential ; pathology ; Progeria ; diagnosis ; genetics ; pathology ; Retrospective Studies ; Skin Diseases ; diagnosis ; genetics ; pathology ; Tomography, X-Ray Computed